/* * $Id$ */ #ifndef _MPC83XX_MPC83XX_H #define _MPC83XX_MPC83XX_H #if defined(MPC8343) #define M83xx_HAS_PCI TRUE #define M83xx_HAS_USB1 TRUE #elif defined(MPC8347) #define M83xx_HAS_PCI TRUE #define M83xx_HAS_USB1 TRUE #define M83xx_HAS_USB2 TRUE #elif defined(MPC8349) #define M83xx_HAS_PCI TRUE #define M83xx_HAS_WIDE_PCI TRUE #define M83xx_HAS_USB1 TRUE #define M83xx_HAS_USB2 TRUE #elif defined(MPC8360) #define M83xx_HAS_PCI TRUE #define M83xx_HAS_QE TRUE #else #error "add feature list in mpc83xx_regs.h" #endif /* * number of TSECs available */ #define M83xx_TSEC_NIFACES 2 #if !defined(ASM) #include /* Offset Register Access Reset Section/Page */ /* System Configuration Registers */ typedef struct m83xxSysConRegisters_ { volatile uint32_t immrbar; /* 0x0_00000 Internal memory map base address register R/W 0xFF40_0000 5.2.4.1/5-5 */ uint8_t reserved0_0004[0x00008-0x00004];/* 0x0_0004 Reserved, should be cleared */ volatile uint32_t altcbar; /* 0x0_0008 Alternate configuration base address register R/W 0x0000_0000 5.2.4.2/5-7 */ uint8_t reserved0_000C[0x00020-0x0000C];/* 0x0_000C--0x0_001C Reserved, should be cleared */ volatile uint32_t lblawbar0; /* 0x0_0020 LBC local access window 0 base address register R/W 0x0000_00001 5.2.4.3/5-7 */ volatile uint32_t lblawar0; /* 0x0_0024 LBC local access window 0 attribute register R/W 0x0000_00002 5.2.4.4/5-8 */ volatile uint32_t lblawbar1; /* 0x0_0028 LBC local access window 1 base address register R/W 0x0000_0000 5.2.4.3/5-7 */ volatile uint32_t lblawar1; /* 0x0_002C LBC local access window 1 attribute register R/W 0x0000_0000 5.2.4.4/5-8 */ volatile uint32_t lblawbar2; /* 0x0_0030 LBC local access window 2 base address register R/W 0x0000_0000 5.2.4.3/5-7 */ volatile uint32_t lblawar2; /* 0x0_0034 LBC local access window 2 attribute register R/W 0x0000_0000 5.2.4.4/5-8 */ volatile uint32_t lblawbar3; /* 0x0_0038 LBC local access window 3 base address register R/W 0x0000_0000 5.2.4.3/5-7 */ volatile uint32_t lblawar3; /* 0x0_003C LBC local access window 3 attribute register R/W 0x0000_0000 5.2.4.4/5-8 */ uint8_t reserved0_0040[0x00060-0x00040];/* 0x0_0040--0x0_005C Reserved, should be cleared */ volatile uint32_t pcilawbar0; /* 0x0_0060 PCI local access window0 base address register R/W 0x0000_00003 5.2.4.5/5-9 */ volatile uint32_t pcilawar0; /* 0x0_0064 PCI local access window0 attribute register R/W 0x0000_00004 5.2.4.6/5-10 */ volatile uint32_t pcilawbar1; /* 0x0_0068 PCI local access window1 base address register R/W 0x0000_0000 5.2.4.5/5-9 */ volatile uint32_t pcilawar1; /* 0x0_006C PCI local access window1 attribute register R/W 0x0000_0000 5.2.4.6/5-10 */ uint8_t reserved0_0070[0x000A0-0x00070];/* 0x0_0070--0x0_009C Reserved, should be cleared */ volatile uint32_t ddrlawbar0; /* 0x0_00A0 DDR local access window0 base address register R/W 0x0000_00005 5.2.4.7/5-12 */ volatile uint32_t ddrlawar0; /* 0x0_00A4 DDR local access window0 attribute register R/W 0x0000_00006 5.2.4.8/5-13 */ volatile uint32_t ddrlawbar1; /* 0x0_00A8 DDR local access window1 base address register R/W 0x0000_0000 5.2.4.7/5-12 */ volatile uint32_t ddrlawar1; /* 0x0_00AC DDR local access window1 attribute register R/W 0x0000_0000 5.2.4.8/5-13 */ uint8_t reserved0_00B0[0x00100-0x000B0];/* 0x0_00B0--0x0_0100 Reserved, should be cleared */ volatile uint32_t sgprl; /* 0x0_0100 general purpose register low (SGPRL) R/W 0x0000_0000 5.3.2.1/5-17 */ volatile uint32_t sgprh; /* 0x0_0104 general purpose register high (SGPRH) R/W 0x0000_0000 5.3.2.2/5-17 */ volatile uint32_t spridr; /* 0x0_0108 part and revision ID register (SPRIDR) R 0x0000_0000 5.3.2.3/5-18 */ uint8_t reserved0_010C[0x00110-0x0010C];/* 0x0_010C--0x0_0110 Reserved, should be cleared */ volatile uint32_t spcr; /* 0x0_0110 priority configuration register (SPCR) R/W 0x0000_0000 5.3.2.4/5-19 */ volatile uint32_t sicrl; /* 0x0_0114 I/O configuration register low (SICRL) R/W 0x0000_0000 5.3.2.5/5-21 */ volatile uint32_t sicrh; /* 0x0_0118 I/O configuration register high (SICRH) R/W 0x0000_00007 5.3.2.6/5-24 */ uint8_t reserved0_011C[0x00128-0x0011C];/* 0x0_011C--0x0_0128 Reserved */ volatile uint32_t ddrcdr; /* 0x0_0128 control driver register (DDRCDR) R/W 0x7304_0001 5.3.2.8/5-28 */ volatile uint32_t ddrdsr; /* 0x0_012C debug status register (DDRDSR) R 0x3300_0000 5.3.2.9/5-30 */ uint8_t reserved0_0130[0x00200-0x00130];/* 0x0_0130--0x0_01FC Reserved */ } m83xxSysConRegisters_t; #define M83xx_SYSCON_SPCR_TBEN (1 << (31-9)) /* Watchdog Timer (WDT) Registers */ typedef struct m83xxWDTRegisters_ { uint8_t reserved0_0200[0x00204-0x00200];/* 0x0_0200 Reserved, should be cleared */ volatile uint32_t swcrr; /* 0x0_0204 System watchdog control register R/W 0x0000_0007 5.4.4.1/5-33 */ volatile uint32_t swcnr; /* 0x0_0208 System watchdog count register R 0x0000_FFFF 5.4.4.2/5-34 */ uint8_t reserved0_020C[(0x0020E)-0x0020C];/* 0x0_020C Reserved, should be cleared */ volatile uint16_t swsrr; /* 0x0_020E System watchdog service register R/W 0x0000_0000 5.4.4.3/5-34 */ } m83xxWDTRegisters_t; /* Real Time Clock Module Registers (RTC) */ typedef struct m83xxRTCRegisters_ { volatile uint32_t rtcnr; /* 0x0_0300 Real time counter control register R/W 0x0000_0000 5.5.5.1/5-40 */ volatile uint32_t rtldr; /* 0x0_0304 Real time counter load register R/W 0x0000_0000 5.5.5.2/5-41 */ volatile uint32_t rtpsr; /* 0x0_0308 Real time counter prescale register R/W 0x0000_0000 5.5.5.3/5-41 */ volatile uint32_t rtctr; /* 0x0_030C Real time counter register R 0x0000_0000 5.5.5.4/5-42 */ volatile uint32_t rtevr; /* 0x0_0310 Real time counter event register R/W 0x0000_0000 5.5.5.5/5-42 */ volatile uint32_t rtalr; /* 0x0_0314 Real time counter alarm register R/W 0xFFFF_FFFF 5.5.5.6/5-43 */ uint8_t reserved0_0314[0x00320-0x00318];/* 0x0_0318--0x0_031F Reserved; should be cleared */ } m83xxRTCRegisters_t; /* Periodic Interval Timer (PIT) Registers */ typedef struct m83xxPITRegisters_ { volatile uint32_t ptcnr; /* 0x0_0400 Periodic interval timer control register R/W 0x0000_0000 5.6.5.1/5-47 */ volatile uint32_t ptldr; /* 0x0_0404 Periodic interval timer load register R/W 0x0000_0000 5.6.5.2/5-48 */ volatile uint32_t ptpsr; /* 0x0_0408 Periodic interval timer prescale register R/W 0x0000_0000 5.6.5.3/5-49 */ volatile uint32_t ptctr; /* 0x0_040C Periodic interval timer counter register R 0x0000_0000 5.6.5.4/5-49 */ volatile uint32_t ptevr; /* 0x0_0410 Periodic interval timer event register R/W 0x0000_0000 5.6.5.5/5-50 */ uint8_t reserved0_0414[0x00500-0x00414]; /* 0x0_0414--0x0_041F Reserved, should be cleared */ } m83xxPITRegisters_t; /* Global Timers Module 1/2 */ #define M83xxGTIdx(n) (n&3) #define M83xxGTLowIdx(n) (n&1) #define M83xxGTHighIdx(n) (((n)>>1)&1) #define M83xxGTModIdx(n) (((n)>>2)&1) #define M83xxGTIdxCnt (4) #define M83xxGTLowCnt (2) #define M83xxGTHighCnt (2) #define M83xxGTModCnt (2) typedef struct m83xxGTMRegisters_ { struct { volatile uint8_t reg; /* 0x0_0500 Timer 1+2/3+4 global timers configuration register R/W 0x00 5.7.5.1/5-57 */ uint8_t reserved0_0501[0x00504-0x00501]; /* 0x0_0501--0x0_0503 Reserved, should be cleared */ } gtcfr[M83xxGTHighCnt]; uint8_t reserved0_0508[0x00510-0x00508]; /* 0x0_0508--0x0_050f Reserved, should be cleared */ struct { volatile uint16_t gtmdr[M83xxGTLowCnt]; /* 0x0_0510 Timer 1/2 global timers mode register R/W 0x0000 5.7.5.2/5-60 */ volatile uint16_t gtrfr[M83xxGTLowCnt]; /* 0x0_0514 Timer 1/2 global timers reference register R/W 0x0000 5.7.5.3/5-62 */ volatile uint16_t gtcpr[M83xxGTLowCnt]; /* 0x0_0518 Timer 1/2 global timers capture register R/W 0x0000 5.7.5.4/5-62 */ volatile uint16_t gtcnr[M83xxGTLowCnt]; /* 0x0_051C Timer 1/2 global timers counter register R/W 0x0000 5.7.5.5/5-63 */ } gt_tim_regs[M83xxGTHighCnt]; volatile uint16_t gtevr[M83xxGTIdxCnt]; /* 0x0_0530 Timer 1-4 global timers event register Special 0x0000 5.7.5.6/5-63 */ volatile uint16_t gtpsr[M83xxGTIdxCnt]; /* 0x0_0538 Timer 1-4 global timers prescale register R/W 0x0003 5.7.5.7/5-64 */ uint8_t reserved0_0540[0x00600-0x00540]; /* 0x0_0540--0x0_05fc Reserved */ } m83xxGTMRegisters_t; /* Integrated Programmable Interrupt Controller (IPIC) */ typedef struct m83xxIPICRegisters_ { volatile uint32_t sicfr; /* 0x0_0700 System global interrupt configuration register R/W 0x0000_0000 8.5.1/8-8 */ volatile uint32_t sivcr; /* 0x0_0704 System global interrupt vector register R 0x0000_0000 8.5.2/8-9 */ volatile uint32_t sipnr[2]; /* 0x0_0708 System internal interrupt pending register H/L R 0x0000_0000 8.5.3/8-11 */ volatile uint32_t siprr[4]; /* 0x0_0710 System internal interrupt group A-D priority register R/W 0x0530_9770 8.5.4/8-14 */ volatile uint32_t simsr[2]; /* 0x0_0720 System internal interrupt mask register H/L R/W 0x0000_0000 8.5.6/8-15 */ uint8_t reserved0_0728[0x0072C-0x00728]; /* 0x0_072C--0x0_0728 Reserved, should be cleared */ volatile uint32_t sepnr; /* 0x0_072C System external interrupt pending register R/W Special 8.5.8/8-18 */ volatile uint32_t smprr[2]; /* 0x0_0730 System mixed interrupt group A/B priority register R/W 0x0530_9770 8.5.9/8-18 */ volatile uint32_t semsr; /* 0x0_0738 System external interrupt mask register R/W 0x0000_0000 8.5.11/8-20 */ volatile uint32_t secnr; /* 0x0_073C System external interrupt control register R/W 0x0000_0000 8.5.12/8-21 */ volatile uint32_t sersr; /* 0x0_0740 System error status register R/W 0x0000_0000 8.5.13/8-22 */ volatile uint32_t sermr; /* 0x0_0744 System error mask register R/W $ 8.5.14/8-23 */ volatile uint32_t sercr; /* 0x0_0748 System error control register R/W 0x0000_0000 8.5.15/8-24 */ uint8_t reserved0_074C[0x00750-0x0074C]; /* 0x0_074C--0x0_074F Reserved, should be cleared */ volatile uint32_t sifcr[2]; /* 0x0_0750 System internal interrupt force register H/L R/W 0x0000_0000 8.5.16/8-25 */ volatile uint32_t sefcr; /* 0x0_0758 System external interrupt force register R/W 0x0000_0000 8.5.17/8-26 */ volatile uint32_t serfr; /* 0x0_075C System error force register R/W 0x0000_0000 8.5.18/8-26 */ volatile uint32_t scvcr; /* 0x0_0760 System critical interrupt vector register R 0x0000_0000 8.5.19/8-27 */ volatile uint32_t smvcr; /* 0x0_0764 System management interrupt vector register R 0x0000_0000 8.5.20/8-27 */ uint8_t reserved0_0760[0x00800-0x00768]; /* 0x0_0768--0x0_07FF Reserved, should be cleared */ } m83xxIPICRegisters_t; /* get vector number from vector register content */ #define MPC83xx_VCR_TO_VEC(regval) ((regval) & 0x7f) /* System Arbiter Registers */ typedef struct m83xxARBRegisters_ { volatile uint32_t acr; /* 0x0_0800 Arbiter configuration register R/W 0x0000_0000 6.2.1/6-2 */ volatile uint32_t atr; /* 0x0_0804 Arbiter timers register R/W 0x00FF_00FF 6.2.2/6-4 */ uint8_t reserved0_0808[0x0080C-0x00808]; /* 0x0_0808 Reserved, should be cleared R 0x0000_0000 */ volatile uint32_t aer; /* 0x0_080C Arbiter event register R/W 0x0000_0000 6.2.3/6-5 */ volatile uint32_t aidr; /* 0x0_0810 Arbiter interrupt definition register R/W 0x0000_0000 6.2.4/6-6 */ volatile uint32_t amr; /* 0x0_0814 Arbiter mask register R/W 0x0000_0000 6.2.5/6-7 */ volatile uint32_t aeatr; /* 0x0_0818 Arbiter event attributes register R 0x0000_0000 6.2.6/6-7 */ volatile uint32_t aeadr; /* 0x0_081C Arbiter event address register R 0x0000_0000 6.2.7/6-9 */ volatile uint32_t aerr; /* 0x0_0820 Arbiter event response register R/W 0x0000_0000 6.2.8/6-10 */ uint8_t reserved0_0824[0x00900-0x00824]; /* 0x0_0824--0x0_08FF Reserved, should be cleared */ } m83xxARBRegisters_t; /* Reset Module */ typedef struct m83xxRESRegisters_ { volatile uint32_t rcwlr; /* 0x0_0900 Reset configuration word low register R 0x0000_0000 4.5.1.1/4-32 */ volatile uint32_t rcwhr; /* 0x0_0904 Reset configuration word high register R 0x0000_0000 4.5.1.2/4-32 */ uint8_t reserved0_0908[0x00910-0x00908]; /* 0x0_0908--0x0_090C Reserved, should be cleared */ volatile uint32_t rsr; /* 0x0_0910 Reset status register R/W 0x0000_0000 4.5.1.3/4-33 */ volatile uint32_t rmr; /* 0x0_0914 Reset mode register R/W 0x0000_0000 4.5.1.4/4-34 */ volatile uint32_t rpr; /* 0x0_0918 Reset protection register R/W 0x0000_0000 4.5.1.5/4-35 */ volatile uint32_t rcr; /* 0x0_091C Reset control register R/W 0x0000_0000 4.5.1.6/4-36 */ volatile uint32_t rcer; /* 0x0_0920 Reset control enable register R/W 0x0000_0000 4.5.1.7/4-36 */ uint8_t reserved0_0924[0x00A00-0x00924]; /* 0x0_0924--0x0_09FC Reserved, should be cleared */ } m83xxRESRegisters_t; /* Clock Module */ typedef struct m83xxCLKRegisters_ { volatile uint32_t spmr; /* 0x0_0A00 System PLL mode register R 0x0000_0000 4.5.2.1/4-37 */ volatile uint32_t occr; /* 0x0_0A04 Output clock control register R/W 0x0000_0000 4.5.2.2/4-38 */ volatile uint32_t sccr; /* 0x0_0A08 System clock control register R/W 0xFFFF_FFFF 4.5.2.3/4-40 */ uint8_t reserved0_0A08[0x00B00-0x00A0C]; /* 0x0_0A0C--0x0_0AFC Reserved, should be cleared */ } m83xxCLKRegisters_t; /* Power Management Control Module */ typedef struct m83xxPMCRegisters_ { volatile uint32_t pmccr; /* 0x0_0B00 Power management controller configuration register R/W 0x0000_0000 5.8.3.1/5-69 */ volatile uint32_t pmcer; /* 0x0_0B04 Power management controller event register R/W 0x0000_0000 5.8.3.2/5-70 */ volatile uint32_t pmcmr; /* 0x0_0B08 Power management controller mask register R/W 0x0000_0000 5.8.3.3/5-71 */ uint8_t reserved0_0B10[0x00C00-0x00B0C]; /* 0x0_0B0C--0x0_0BFC Reserved, should be cleared */ } m83xxPMCRegisters_t; /* GPIO1 Registers */ typedef struct m83xxGPIORegisters_ { volatile uint32_t gpdir; /* 0x0_0C00 GPIO1/2 direction register R/W 0x0000_0000 21.3.1/21-3 */ volatile uint32_t gpdr; /* 0x0_0C04 GPIO1/2 open drain register R/W 0x0000_0000 21.3.2/21-4 */ volatile uint32_t gpdat; /* 0x0_0C08 GPIO1/2 data register R/W 0x0000_0000 21.3.3/21-4 */ volatile uint32_t gpier; /* 0x0_0C0C GPIO1/2 interrupt event register R/W Undefined 21.3.4/21-5 */ volatile uint32_t gpimr; /* 0x0_0C10 GPIO1/2 interrupt mask register R/W 0x0000_0000 21.3.5/21-5 */ volatile uint32_t gpicr; /* 0x0_0C14 GPIO1/2 external interrupt control register R/W 0x0000_0000 21.3.6/21-6 */ uint8_t reserved0_0C1C[0x00D00-0x00C18]; /* 0x0_0C18--0x0_0CFF Reserved, should be cleared */ } m83xxGPIORegisters_t; /* DLL */ typedef struct m83xxDLLRegisters_ { uint8_t reserved0_1000[0x01010-0x01000]; /* 0x0_1000--0x0_100F Reserved, should be cleared */ volatile uint32_t mckenr; /* 0x0_1010 MCK enable register (MCKENR) R/W 0xFC00_0000 4.5.3/4-41 */ uint8_t reserved0_1014[0x01100-0x01014]; /* 0x0_1014--0x0_10FF Reserved, should be cleared */ volatile uint32_t reserved0_1100; /* 0x0_1100 Reserved. Reset value should be preserved. R/W 0x0500_0280 */ volatile uint32_t reserved0_1104; /* 0x0_1104 Reserved. Reset value should be preserved. R/W 0x8004_0810 */ volatile uint32_t dllovr; /* 0x0_1108 DLL override register (DLLOVR) R/W 0x0000_0000 22.4.1/22-4 */ volatile uint32_t dllsr; /* 0x0_110C DLL status register (DLLSR) R 0x0000_0000 22.4.2/22-4 */ volatile uint32_t dllck; /* 0x0_1110 DLL clock register (DLLCK) R/W 0xFC00_0000 22.4.3/22-5 */ uint8_t reserved0_1110[0x01200-0x01114]; /* 0x0_1114--0x0_11FF Reserved, should be cleared */ } m83xxDLLRegisters_t; /* DDR Memory Controller Memory Map */ typedef struct m83xxDDRRegisters_ { volatile uint32_t cs0_bnds; /* 0x0_2000 Chip select 0 memory bounds R/W 0x0000_0000 9.4.1.1/9-10 */ uint8_t reserved0_2004[0x02008-0x02004]; /* 0x0_2004--0x0_2008 Reserved, should be cleared */ volatile uint32_t cs1_bnds; /* 0x0_2008 Chip select 1 memory bounds R/W 0x0000_0000 */ uint8_t reserved0_200C[0x02010-0x0200C]; /* 0x0_200C--0x0_2010 Reserved, should be cleared */ volatile uint32_t cs2_bnds; /* 0x0_2010 Chip select 2 memory bounds R/W 0x0000_0000 */ uint8_t reserved0_2014[0x02018-0x02014]; /* 0x0_2014--0x0_2018 Reserved, should be cleared */ volatile uint32_t cs3_bnds; /* 0x0_2018 Chip select 3 memory bounds R/W 0x0000_0000 */ uint8_t reserved0_201C[0x02080-0x0201C]; /* 0x0_201C--0x0_207F Reserved, should be cleared */ volatile uint32_t cs0_config; /* 0x0_2080 Chip select 0 configuration R/W 0x0000_0000 9.4.1.2/9-11 */ volatile uint32_t cs1_config; /* 0x0_2084 Chip select 1 configuration R/W 0x0000_0000 */ volatile uint32_t cs2_config; /* 0x0_2088 Chip select 2 configuration R/W 0x0000_0000 */ volatile uint32_t cs3_config; /* 0x0_208C Chip select 3 configuration R/W 0x0000_0000 */ uint8_t reserved0_2090[0x02100-0x02090]; /* 0x0_2090--0x0_2100 Reserved, should be cleared */ volatile uint32_t timing_cfg_3; /* 0x0_2100 DDR SDRAM timing configuration 3 R/W 0x0000_0000 9.4.1.3/9-13 */ volatile uint32_t timing_cfg_0; /* 0x0_2104 DDR SDRAM timing configuration 0 R/W 0x0011_0105 9.4.1.4/9-14 */ volatile uint32_t timing_cfg_1; /* 0x0_2108 DDR SDRAM timing configuration 1 R/W 0x0000_0000 9.4.1.5/9-16 */ volatile uint32_t timing_cfg_2; /* 0x0_210C DDR SDRAM timing configuration 2 R/W 0x0000_0000 9.4.1.6/9-18 */ volatile uint32_t ddr_sdram_cfg; /* 0x0_2110 DDR SDRAM control configuration R/W 0x0200_0000 9.4.1.7/9-20 */ volatile uint32_t ddr_sdram_cfg_2; /* 0x0_2114 DDR SDRAM control configuration 2 R/W 0x0000_0000 9.4.1.8/9-22 */ volatile uint32_t ddr_sdram_mode; /* 0x0;_2118 DDR SDRAM mode configuration R/W 0x0000_0000 9.4.1.9/9-24 */ volatile uint32_t ddr_sdram_mode_2; /* 0x0_211C DDR SDRAM mode configuration 2 R/W 0x0000_0000 9.4.1.10/9-24 */ volatile uint32_t ddr_sdram_md_cntl; /* 0x0_2120 DDR SDRAM mode control R/W 0x0000_0000 9.4.1.11/9-25 */ volatile uint32_t ddr_sdram_interval; /* 0x0_2124 DDR SDRAM interval configuration R/W 0x0000_0000 9.4.1.12/9-27 */ volatile uint32_t ddr_data_init; /* 0x0_2128 DDR SDRAM data initialization R/W 0x0000_0000 9.4.1.13/9-28 */ uint8_t reserved0_212C[0x02130-0x0212C]; /* 0x0_212C Reserved $ $ */ volatile uint32_t ddr_sdram_clk_cntl; /* 0x0_2130 DDR SDRAM clock control R/W 0x0200_0000 9.4.1.14/9-28 */ uint8_t reserved0_2134[0x02148-0x02134]; /* 0x0_2140 Reserved $ $ */ volatile uint32_t ddr_init_address; /* 0x0_2148 DDR training initialization address R/W 0x0000_0000 9.4.1.15/9-29 */ uint8_t reserved0_214C[0x02BF8-0x0214C]; /* 0x0_214C Reserved $ $ */ volatile uint32_t ddr_ip_rev1; /* 0x0_2BF8 DDR IP block revision 1 R 0x0002_0200 9.4.1.16/9-30 */ volatile uint32_t ddr_ip_rev2; /* 0x0_2BFC DDR IP block revision 2 R 0x0000_0000 9.4.1.17/9-30 */ uint8_t reserved0_2C00[0x02E00-0x02C00]; /* 0x0_2C00 Reserved $ $ */ volatile uint32_t data_err_inject_hi; /* 0x0_2E00 Memory data path error injection mask high R/W 0x0000_0000 9.4.1.18/9-31 */ volatile uint32_t data_err_inject_lo; /* 0x0_2E04 Memory data path error injection mask low R/W 0x0000_0000 9.4.1.19/9-31 */ volatile uint32_t ecc_err_inject; /* 0x0_2E08 Memory data path error injection mask ECC R/W 0x0000_0000 9.4.1.20/9-32 */ uint8_t reserved0_2E0C[0x02E20-0x02E0C]; /* 0x0_2E0C Reserved $ $ */ volatile uint32_t capture_data_hi; /* 0x0_2E20 Memory data path read capture high R/W 0x0000_0000 9.4.1.21/9-32 */ volatile uint32_t capture_data_lo; /* 0x0_2E24 Memory data path read capture low R/W 0x0000_0000 9.4.1.22/9-33 */ volatile uint32_t capture_ecc; /* 0x0_2E28 Memory data path read capture ECC R/W 0x0000_0000 9.4.1.23/9-33 */ uint8_t reserved0_2E2C[0x02E40-0x02E2C]; /* 0x0_2E2C Reserved $ $ */ volatile uint32_t err_detect; /* 0x0_2E40 Memory error detect w1c 0x0000_0000 9.4.1.24/9-33 */ volatile uint32_t err_disable; /* 0x0_2E44 Memory error disable R/W 0x0000_0000 9.4.1.25/9-34 */ volatile uint32_t err_int_en; /* 0x0_2E48 Memory error interrupt enable R/W 0x0000_0000 9.4.1.26/9-35 */ volatile uint32_t capture_attributes; /* 0x0_2E4C Memory error attributes capture R/W 0x0000_0000 9.4.1.27/9-36 */ volatile uint32_t capture_address; /* 0x0_2E50 Memory error address capture R/W 0x0000_0000 9.4.1.28/9-37 */ uint8_t reserved0_2E54[0x02E58-0x02E54]; /* 0x0_2E54 Reserved $ $ */ volatile uint32_t err_sbe; /* 0x0_2E58 Single-Bit ECC memory error management R/W 0x0000_0000 9.4.1.29/9-37 */ uint8_t reserved0_2E5C[0x2F00-0x2E5C]; } m83xxDDRRegisters_t; /* I2C Controller */ typedef struct m83xxI2CRegisters_ { volatile uint8_t i2cadr; /* 0x0_3000 I2C1 address register R/W 0x00 17.3.1.1/17-5 */ uint8_t reserved0_3001[0x03004-0x03001]; volatile uint8_t i2cfdr; /* 0x0_3004 I2C1 frequency divider register R/W 0x00 17.3.1.2/17-5 */ uint8_t reserved0_3005[0x03008-0x03005]; volatile uint8_t i2ccr; /* 0x0_3008 I2C1 control register R/W 0x00 17.3.1.3/17-6 */ uint8_t reserved0_3009[0x0300C-0x03009]; volatile uint8_t i2csr; /* 0x0_300C I2C1 status register R/W 0x81 17.3.1.4/17-8 */ uint8_t reserved0_300D[0x03010-0x0300D]; volatile uint8_t i2cdr; /* 0x0_3010 I2C1 data register R/W 0x00 17.3.1.5/17-9 */ uint8_t reserved0_3011[0x03014-0x03011]; volatile uint8_t i2cdfsrr; /* 0x0_3014 I2C1 digital filter sampling rate register R/W 0x0001_0000 17.3.1.6/17-10 */ uint8_t reserved0_3015[0x03018-0x03015]; uint8_t reserved0_3018[0x03100-0x03018]; /* 0x0_3018-30FF Reserved, should be cleared */ } m83xxI2CRegisters_t; #define MPC83XX_I2CCR_MEN (1 << 7) /* module enable */ #define MPC83XX_I2CCR_MIEN (1 << 6) /* module interrupt enable */ #define MPC83XX_I2CCR_MSTA (1 << 5) /* 0->1 generates a start condiiton, 1->0 a stop */ #define MPC83XX_I2CCR_MTX (1 << 4) /* 0 = receive mode, 1 = transmit mode */ #define MPC83XX_I2CCR_TXAK (1 << 3) /* 0 = send ack 1 = send nak during receive */ #define MPC83XX_I2CCR_RSTA (1 << 2) /* 1 = send repeated start condition */ #define MPC83XX_I2CCR_BCST (1 << 0) /* 0 = disable 1 = enable broadcast accept */ #define MPC83XX_I2CSR_MCF (1 << 7) /* data transfer (0=transfer in progres) */ #define MPC83XX_I2CSR_MAAS (1 << 6) /* addessed as slave */ #define MPC83XX_I2CSR_MBB (1 << 5) /* bus busy */ #define MPC83XX_I2CSR_MAL (1 << 4) /* arbitration lost */ #define MPC83XX_I2CSR_BCSTM (1 << 3) /* broadcast match */ #define MPC83XX_I2CSR_SRW (1 << 2) /* slave read/write */ #define MPC83XX_I2CSR_MIF (1 << 1) /* module interrupt */ #define MPC83XX_I2CSR_RXAK (1 << 0) /* receive acknowledge */ /* DUART */ typedef struct m83xxDUARTRegisters_ { union { volatile uint8_t urbr; /* 0x0_4500 ULCR[DLAB] = 0 UART1 receiver buffer register R 0x00 18.3.1.1/18-6 */ volatile uint8_t uthr; /* 0x0_4500 ULCR[DLAB] = 0 UART1 transmitter holding register W 0x00 18.3.1.2/18-6 */ volatile uint8_t udlb; /* 0x0_4500 ULCR[DLAB] = 1 UART1 divisor least significant byte register R/W 0x00 18.3.1.3/18-7 */ } urbr_uthr_udlb; union { volatile uint8_t uier; /* 0x0_4501 ULCR[DLAB] = 0 UART1 interrupt enable register R/W 0x00 18.3.1.4/18-8 */ volatile uint8_t udmb; /* 0x0_4501 ULCR[DLAB] = 1 UART1 divisor most significant byte register R/W 0x00 18.3.1.3/18-7 */ } uier_udmb; union { volatile uint8_t uiir; /* 0x0_4502 ULCR[DLAB] = 0 UART1 interrupt ID register R 0x01 18.3.1.5/18-9 */ volatile uint8_t ufcr; /* 0x0_4502 ULCR[DLAB] = 0 UART1 FIFO control register W 0x00 18.3.1.6/18-10 */ volatile uint8_t uafr; /* 0x0_4502 ULCR[DLAB] = 1 UART1 alternate function register R/W 0x00 18.3.1.12/18-16 */ } uiir_ufcr_uafr; volatile uint8_t ulcr; /* 0x0_4503 ULCR[DLAB] = x UART1 line control register R/W 0x00 18.3.1.7/18-11 */ volatile uint8_t umcr; /* 0x0_4504 ULCR[DLAB] = x UART1 MODEM control register R/W 0x00 18.3.1.8/18-13 */ volatile uint8_t ulsr; /* 0x0_4505 ULCR[DLAB] = x UART1 line status register R 0x60 18.3.1.9/18-14 */ volatile uint8_t umsr; /* 0x0_4506 ULCR[DLAB] = x UART1 MODEM status register R 0x00 18.3.1.10/18-15 */ volatile uint8_t uscr; /* 0x0_4507 ULCR[DLAB] = x UART1 scratch register R/W 0x00 18.3.1.11/18-16 */ uint8_t reserved0_4508[0x04510-0x04508];/* 0x0_4508-450F Reserved */ volatile uint8_t udsr; /* 0x0_4510 ULCR[DLAB] = x UART1 DMA status register R 0x01 18.3.1.13/18-17 */ uint8_t reserved0_4511[0x04600-0x04511];/* 0x0_4511-45FF Reserved */ } m83xxDUARTRegisters_t; /* Local Bus Controller (LBC) Registers */ typedef struct m83xxLBCRegisters_ { struct { volatile uint32_t br; /* 0x0_5000 Base register 0 ,R/W 0x0000_RR01 10.3.1.1/10-11 */ volatile uint32_t optionsr; /* 0x0_5004 Options register 0 R/W 0x0000_0FF7 10.3.1.2/10-12 */ } bor[8]; uint8_t reserved0_5040[0x05068-0x05040];/* 0x0_5040-5067 Reserved */ volatile uint32_t mar; /* 0x0_5068 UPM address register R/W 0x0000_0000 10.3.1.3/10-18 */ uint8_t reserved0_506C[0x05070-0x0506C];/* 0x0_506C-506F Reserved */ volatile uint32_t mamr; /* 0x0_5070 UPMA mode register R/W 0x0000_0000 10.3.1.4/10-19 */ volatile uint32_t mbmr; /* 0x0_5074 UPMB mode register R/W 0x0000_0000 10.3.1.4/10-19 */ volatile uint32_t mcmr; /* 0x0_5078 UPMC mode register R/W 0x0000_0000 10.3.1.4/10-19 */ uint8_t reserved0_507C[0x05084-0x0507C];/* 0x0_507C-5083 Reserved */ volatile uint32_t mrtpr; /* 0x0_5084 Memory refresh timer prescaler register R/W 0x0000_0000 10.3.1.5/10-21 */ volatile uint32_t mdr; /* 0x0_5088 UPM data register R/W 0x0000_0000 10.3.1.6/10-22 */ uint8_t reserved0_508C[0x05094-0x0508C];/* 0x0_508C-5093 Reserved */ volatile uint32_t lsdmr; /* 0x0_5094 SDRAM mode register R/W 0x0000_0000 10.3.1.7/10-22 */ uint8_t reserved0_5098[0x050A0-0x05098];/* 0x0_5098-509F Reserved */ volatile uint32_t lurt; /* 0x0_50A0 UPM refresh timer R/W 0x0000_0000 10.3.1.8/10-24 */ volatile uint32_t lsrt; /* 0x0_50A4 SDRAM refresh timer R/W 0x0000_0000 10.3.1.9/10-25 */ uint8_t reserved0_50A8[0x050B0-0x050A8];/* 0x0_50A8-50AF Reserved */ volatile uint32_t ltesr; /* 0x0_50B0 Transfer error status register Read/ bit-reset 0x0000_0000 10.3.1.10/10-26 */ volatile uint32_t ltedr; /* 0x0_50B4 Transfer error check disable register R/W 0x0000_0000 10.3.1.11/10-27 */ volatile uint32_t lteir; /* 0x0_50B8 Transfer error interrupt enable register R/W 0x0000_0000 10.3.1.12/10-27 */ volatile uint32_t lteatr; /* 0x0_50BC Transfer error attributes register R/W 0x0000_0000 10.3.1.13/10-28 */ volatile uint32_t ltear; /* 0x0_50C0 Transfer error address register R/W 0x0000_0000 10.3.1.14/10-29 */ uint8_t reserved0_50C4[0x050D0-0x050C4];/* 0x0_50C4-50CF Reserved */ volatile uint32_t lbcr; /* 0x0_50D0 Local bus configuration register R/W 0x0000_0000 10.3.1.15/10-29 */ volatile uint32_t lcrr; /* 0x0_50D4 Clock ratio register R/W 0x8000_0008 10.3.1.16/10-30 */ uint8_t reserved0_50D8[0x05100-0x050D8];/* 0x0_50D8-50FF Reserved */ } m83xxLBCRegisters_t; /* Serial Peripheral Interface (SPI) */ typedef struct m83xxSPIRegisters_ { uint8_t reserved0_7000[0x07020-0x07000];/* 0x0_7000-7020 Reserved, should be cleared */ volatile uint32_t spmode; /* 0x0_7020 SPI mode register R/W 0x0000_0000 19.4.1.1/19-9 */ volatile uint32_t spie; /* 0x0_7024 SPI event register R/W 0x0000_0000 19.4.1.2/19-11 */ volatile uint32_t spim; /* 0x0_7028 SPI mask register R/W 0x0000_0000 19.4.1.3/19-13 */ volatile uint32_t spcom; /* 0x0_702C SPI command register R/W 0x0000_0000 19.4.1.4/19-14 */ volatile uint32_t spitd; /* 0x0_7030 SPI transmit register R/W 0x0000_0000 19.4.1.5/19-14 */ volatile uint32_t spird; /* 0x0_7034 SPI receive register R 0xFFFF_FFFF 19.4.1.6/19-15 */ uint8_t reserved0_7038[0x07100-0x07038];/* 0x0_7038-70FF Reserved */ } m83xxSPIRegisters_t; /* SPIMODE register fields */ #define MPC83XX_SPIMODE_LOOP (1 << (31- 1)) /* loopback */ #define MPC83XX_SPIMODE_CI (1 << (31- 2)) /* clock invert */ #define MPC83XX_SPIMODE_CP (1 << (31- 3)) /* clock phase */ #define MPC83XX_SPIMODE_DIV16 (1 << (31- 4)) /* divide by 16 */ #define MPC83XX_SPIMODE_REV (1 << (31- 5)) /* LSB first */ #define MPC83XX_SPIMODE_M_S (1 << (31- 6)) /* master/slave */ #define MPC83XX_SPIMODE_EN (1 << (31- 7)) /* enable */ #define MPC83XX_SPIMODE_LEN(n) ((n) << (31-11)) /* length code */ #define MPC83XX_SPIMODE_PM(n) ((n) << (31-15)) /* prescaler */ #define MPC83XX_SPIMODE_OD (1 << (31-19)) /* open drain */ /* SPCOM register fields */ #define MPC83XX_SPCOM_LST (1 << (31- 9)) /* last transfer */ /* SPIE/M register fields */ #define MPC83XX_SPIE_LT (1 << (31-17)) /* last character transmitted */ #define MPC83XX_SPIE_DNR (1 << (31-18)) /* data not ready */ #define MPC83XX_SPIE_OV (1 << (31-19)) /* overrun */ #define MPC83XX_SPIE_UN (1 << (31-20)) /* unterrun */ #define MPC83XX_SPIE_MME (1 << (31-21)) /* multi-master error */ #define MPC83XX_SPIE_NE (1 << (31-22)) /* not empty */ #define MPC83XX_SPIE_NF (1 << (31-23)) /* not full */ typedef struct m83xxDMARegisters_ { /* DMA Registers */ uint8_t reserved0_8000[0x08030-0x08000];/* 0x0_8000-0x0_802f Reserved */ volatile uint32_t omisr; /* 0x0_8030 Outbound message interrupt status register Special 0x0000_0000 12.4.1/12-4 */ volatile uint32_t omimr; /* 0x0_8034 Outbound message interrupt mask register R/W 0x0000_0000 12.4.2/12-6 */ uint8_t reserved0_8038[0x08050-0x08038];/* 0x0_8038-0x0_804f Reserved */ volatile uint32_t imr0; /* 0x0_8050 Inbound message register 0 R/W 0x0000_0000 12.4.3/12-7 */ volatile uint32_t imr1; /* 0x0_8054 Inbound message register 1 R/W 0x0000_0000 12.4.3/12-7 */ volatile uint32_t omr0; /* 0x0_8058 Outbound message register 0 R/W 0x0000_0000 12.4.4/12-7 */ volatile uint32_t omr1; /* 0x0_805C Outbound message register 1 R/W 0x0000_0000 12.4.4/12-7 */ volatile uint32_t odr; /* 0x0_8060 Outbound doorbell register R/W 0x0000_0000 12.4.5/12-8 */ uint8_t reserved0_8064[0x08068-0x08064];/* 0x0_8064-0x0_8067 Reserved */ volatile uint32_t idr; /* 0x0_8068 Inbound doorbell register R/W 0x0000_0000 12.4.5/12-8 */ uint8_t reserved0_806C[0x08080-0x0806C];/* 0x0_806C-0x0_807F Reserved */ volatile uint32_t imisr; /* 0x0_8080 Inbound message interrupt status register R/W 0x0000_0000 12.4.6/12-9 */ volatile uint32_t imimr; /* 0x0_8084 Inbound message interrupt mask register R/W 0x0000_0000 12.4.7/12-11 */ uint8_t reserved0_8088[0x080A8-0x08088];/* 0x0_8088-0x0_80A7 Reserved */ struct m83xxDMAChannelRegisters_ { uint8_t reserved0_80A8[0x08100-0x080A8];/* 0x0_80A8-0x0_80FF Reserved */ volatile uint32_t dmamr0; /* 0x0_8100 DMA 0 mode register R/W 0x0000_0000 12.4.8.1/12-12 */ volatile uint32_t dmasr0; /* 0x0_8104 DMA 0 status register R/W 0x0000_0000 12.4.8.2/12-14 */ volatile uint32_t dmacdar0; /* 0x0_8108 DMA 0 current descriptor address register R/W 0x0000_0000 12.4.8.3/12-15 */ uint8_t reserved0_810C[0x08110-0x0810C];/* 0x0_810C-0x0_810F Reserved */ volatile uint32_t dmasar0; /* 0x0_8110 DMA 0 source address register R/W 0x0000_0000 12.4.8.4/12-16 */ uint8_t reserved0_8114[0x08118-0x08114];/* 0x0_8114-0x0_8117 Reserved */ volatile uint32_t dmadar0; /* 0x0_8118 DMA 0 destination address register R/W 0x0000_0000 12.4.8.5/12-16 */ uint8_t reserved0_811C[0x08120-0x0811C];/* 0x0_8120-0x0_811C Reserved */ volatile uint32_t dmabcr0; /* 0x0_8120 DMA 0 byte count register R/W 0x0000_0000 12.4.8.6/12-17 */ volatile uint32_t dmandar0; /* 0x0_8124 DMA 0 next descriptor address register R/W 0x0000_0000 12.4.8.7/12-17 */ }chan[4]; volatile uint32_t dmagsr; /* 0x0_82A8 DMA general status register R 0x0000_0000 12.4.8.8/12-18 */ uint8_t reserved0_82AC[0x082FF-0x082AC]; /* 0x0_82AC-0x0_82FF Reserved, should be cleared */ } m83xxDMARegisters_t; /* Registers in DMA section use little-endian byte order */ /* DMA mode register */ #define MPC83XX_DMAMR_DRCNT_1 (5 << 24) #define MPC83XX_DMAMR_DRCNT_2 (6 << 24) #define MPC83XX_DMAMR_DRCNT_4 (7 << 24) #define MPC83XX_DMAMR_DRCNT_8 (8 << 24) #define MPC83XX_DMAMR_DRCNT_16 (9 << 24) #define MPC83XX_DMAMR_DRCNT_32 (0xA << 24) #define MPC83XX_DMAMR_BWC_1 (0 << 21) #define MPC83XX_DMAMR_BWC_2 (1 << 21) #define MPC83XX_DMAMR_BWC_4 (2 << 21) #define MPC83XX_DMAMR_BWC_8 (3 << 21) #define MPC83XX_DMAMR_BWC_16 (4 << 21) #define MPC83XX_DMAMR_DMSEN (1 << 20) #define MPC83XX_DMAMR_IRQS (1 << 19) #define MPC83XX_DMAMR_EMSEN (1 << 18) #define MPC83XX_DMAMR_DAHTS_1 (0 << 16) #define MPC83XX_DMAMR_DAHTS_2 (1 << 16) #define MPC83XX_DMAMR_DAHTS_4 (2 << 16) #define MPC83XX_DMAMR_DAHTS_8 (3 << 16) #define MPC83XX_DMAMR_SAHTS_1 (0 << 14) #define MPC83XX_DMAMR_SAHTS_2 (1 << 14) #define MPC83XX_DMAMR_SAHTS_4 (2 << 14) #define MPC83XX_DMAMR_SAHTS_8 (3 << 14) #define MPC83XX_DMAMR_DAHE (1 << 13) #define MPC83XX_DMAMR_SAHE (1 << 12) #define MPC83XX_DMAMR_PRC_PCI_READ (0 << 10) #define MPC83XX_DMAMR_PRC_PCI_READ_LINE (1 << 10) #define MPC83XX_DMAMR_PRC_PCI_READ_MULTIPLE (2 << 10) #define MPC83XX_DMAMR_EOIIE (1 << 7) #define MPC83XX_DMAMR_TEM (1 << 3) #define MPC83XX_DMAMR_CTM (1 << 2) #define MPC83XX_DMAMR_CC (1 << 1) #define MPC83XX_DMAMR_CS (1 << 0) /* DMA status register */ #define MPC83XX_DMASR_TE (1 << 7) #define MPC83XX_DMASR_CB (1 << 2) #define MPC83XX_DMASR_EOSI (1 << 1) #define MPC83XX_DMASR_EOCDI (1 << 0) /* DMA current descriptor address register */ #define MPC83XX_DMACDAR_SNEN (1 << 4) #define MPC83XX_DMACDAR_EOSIE (1 << 3) /* DMA next descriptor address register */ #define MPC83XX_DMANDAR_NSNEN (1 << 4) #define MPC83XX_DMANDAR_NEOSIE (1 << 3) #define MPC83XX_DMANDAR_EOTD (1 << 0) typedef struct m83xxPCICfgRegisters_ { /* PCI1 Software Configuration Registers */ volatile uint32_t config_address; /* 0x0_8300 PCI1 CONFIG_ADDRESS W 13.3.1.1/13-16 */ volatile uint32_t config_data; /* 0x0_8304 PCI1 CONFIG_DATA R/W 13.3.1.2/13-18 */ volatile uint32_t int_ack; /* 0x0_8308 PCI1 INT_ACK R 13.3.1.3/13-18 */ uint8_t reserved0_830C[0x08380-0x0830C]; /* 0x0_830C-0x0_837F Reserved */ } m83xxPCICfgRegisters_t; typedef struct m83xxPCIIosRegisters_ { /* Sequencer (IOS) */ volatile uint32_t potar0; /* 0x0_8400 PCI outbound translation address register 0 R/W 0x0000_0000 11.4.1/11-3 */ uint8_t reserved0_8404[0x08408-0x08404];/* 0x0_8404 Reserved */ volatile uint32_t pobar0; /* 0x0_8408 PCI outbound base address register 0 R/W 0x0000_0000 11.4.2/11-3 */ uint8_t reserved0_840C[0x08410-0x0840C];/* 0x0_840C Reserved */ volatile uint32_t pocmr0; /* 0x0_8410 PCI outbound comparison mask register 0 R/W 0x0000_0000 11.4.3/11-4 */ uint8_t reserved0_8414[0x08418-0x08414];/* 0x0_8414 Reserved */ volatile uint32_t potar1; /* 0x0_8418 PCI outbound translation address register 1 R/W 0x0000_0000 11.4.1/11-3 */ uint8_t reserved0_841C[0x08420-0x0841C];/* 0x0_841C Reserved */ volatile uint32_t pobar1; /* 0x0_8420 PCI outbound base address register 1 R/W 0x0000_0000 11.4.2/11-3 */ uint8_t reserved0_8424[0x08428-0x08424];/* 0x0_8424 Reserved */ volatile uint32_t pocmr1; /* 0x0_8428 PCI outbound comparison mask register 1 R/W 0x0000_0000 11.4.3/11-4 */ uint8_t reserved0_842C[0x08430-0x0842C];/* 0x0_842C Reserved */ volatile uint32_t potar2; /* 0x0_8430 PCI outbound translation address register 2 R/W 0x0000_0000 11.4.1/11-3 */ uint8_t reserved0_8434[0x08438-0x08434];/* 0x0_8434 Reserved */ volatile uint32_t pobar2; /* 0x0_8438 PCI outbound base address register 2 R/W 0x0000_0000 11.4.2/11-3 */ uint8_t reserved0_843C[0x08440-0x0843C];/* 0x0_843C Reserved */ volatile uint32_t pocmr2; /* 0x0_8440 PCI outbound comparison mask register 2 R/W 0x0000_0000 11.4.3/11-4 */ uint8_t reserved0_8444[0x08448-0x08444];/* 0x0_8444 Reserved */ volatile uint32_t potar3; /* 0x0_8448 PCI outbound translation address register 3 R/W 0x0000_0000 11.4.1/11-3 */ uint8_t reserved0_844C[0x08450-0x0844C];/* 0x0_844C Reserved */ volatile uint32_t pobar3; /* 0x0_8450 PCI outbound base address register 3 R/W 0x0000_0000 11.4.2/11-3 */ uint8_t reserved0_8454[0x08458-0x08454];/* 0x0_8454 Reserved */ volatile uint32_t pocmr3; /* 0x0_8458 PCI outbound comparison mask register 3 R/W 0x0000_0000 11.4.3/11-4 */ uint8_t reserved0_845C[0x08460-0x0845C];/* 0x0_845C Reserved */ volatile uint32_t potar4; /* 0x0_8460 PCI outbound translation address register 4 R/W 0x0000_0000 11.4.1/11-3 */ uint8_t reserved0_8464[0x08468-0x08464];/* 0x0_8464 Reserved */ volatile uint32_t pobar4; /* 0x0_8468 PCI outbound base address register 4 R/W 0x0000_0000 11.4.2/11-3 */ uint8_t reserved0_846C[0x08470-0x0846C];/* 0x0_846C Reserved */ volatile uint32_t pocmr4; /* 0x0_8470 PCI outbound comparison mask register 4 R/W 0x0000_0000 11.4.3/11-4 */ uint8_t reserved0_8474[0x08478-0x08474];/* 0x0_8474 Reserved */ volatile uint32_t potar5; /* 0x0_8478 PCI outbound translation address register 5 R/W 0x0000_0000 11.4.1/11-3 */ uint8_t reserved0_847C[0x08480-0x0847C];/* 0x0_847C Reserved */ volatile uint32_t pobar5; /* 0x0_8480 PCI outbound base address register 5 R/W 0x0000_0000 11.4.2/11-3 */ uint8_t reserved0_8484[0x08488-0x08484];/* 0x0_8484 Reserved */ volatile uint32_t pocmr5; /* 0x0_8488 PCI outbound comparison mask register 5 R/W 0x0000_0000 11.4.3/11-4 */ uint8_t reserved0_848C[0x084F0-0x0848C];/* 0x0_848C Reserved */ volatile uint32_t pmcr; /* 0x0_84F0 Power management control register R/W 0x0000_0000 11.4.4/11-5 */ uint8_t reserved0_84F4[0x084F8-0x084F4];/* 0x0_84F4 Reserved */ volatile uint32_t dtcr; /* 0x0_84F8 Discard timer control register R/W 0x0000_0000 11.4.5/11-6 */ uint8_t reserved0_84FC[0x08500-0x084FC];/* 0x0_84FC Reserved */ } m83xxPCIIosRegisters_t; typedef struct m83xxPCICtrlRegisters_ { /* PCI1 Error Management Registers */ volatile uint32_t pci_esr; /* 0x0_8500 PCI error status register R / w1c 0x0000_0000 13.3.2.1/13-18 */ volatile uint32_t pci_ecdr; /* 0x0_8504 PCI error capture disable register R/W 0x0000_0000 13.3.2.2/13-19 */ volatile uint32_t pci_eer; /* 0x0_8508 PCI error enable register R/W 0x0000_0000 13.3.2.3/13-20 */ volatile uint32_t pci_eatcr; /* 0x0_850C PCI error attributes capture register R/W 0x0000_0000 13.3.2.4/13-21 */ volatile uint32_t pci_eacr; /* 0x0_8510 PCI error address capture register R 0x0000_0000 13.3.2.5/13-23 */ volatile uint32_t pci_eeacr; /* 0x0_8514 PCI error extended address capture register R 0x0000_0000 13.3.2.6/13-23 */ volatile uint32_t pci_edlcr; /* 0x0_8518 PCI error data low capture register R 0x0000_0000 13.3.2.7/13-24 */ volatile uint32_t pci_edhcr; /* 0x0_851C PCI error data high capture register R 0x0000_0000 13.3.2.8/13-24 */ /* PCI1 Control and Status Registers */ volatile uint32_t pci_gcr; /* 0x0_8520 PCI general control register R/W 0x0000_0000 13.3.2.9/13-24 */ volatile uint32_t pci_ecr; /* 0x0_8524 PCI error control register R/W 0x0000_0000 13.3.2.10/13-25 */ volatile uint32_t pci_gsr; /* 0x0_8528 PCI general status register R 0x0000_0000 13.3.2.11/13-26 */ uint8_t reserved0_852C[0x08538-0x0852C];/* 0x0_852C Reserved */ /* PCI1 Inbound ATU Registers */ volatile uint32_t pitar2; /* 0x0_8538 PCI inbound translation address register 2 R/W 0x0000_0000 13.3.2.12/13-26 */ uint8_t reserved0_853C[0x08540-0x0853C];/* 0x0_853C Reserved, should be cleared $ $ */ volatile uint32_t pibar2; /* 0x0_8540 PCI inbound base address register 2 R/W 0x0000_0000 13.3.2.13/13-27 */ volatile uint32_t piebar2; /* 0x0_8544 PCI inbound extended base address register 2 R/W 0x0000_0000 13.3.2.14/13-27 */ volatile uint32_t piwar2; /* 0x0_8548 PCI inbound window attributes register 2 R/W 0x0000_0000 13.3.2.15/13-28 */ uint8_t reserved0_854C[0x08550-0x0854C];/* 0x0_854C Reserved */ volatile uint32_t pitar1; /* 0x0_8550 PCI inbound translation address register 1 R/W 0x0000_0000 13.3.2.12/13-26 */ uint8_t reserved0_8550[0x08558-0x08554];/* 0x0_8554 Reserved, should be cleared $ $ */ volatile uint32_t pibar1; /* 0x0_8558 PCI inbound base address register 1 R/W 0x0000_0000 13.3.2.13/13-27 */ volatile uint32_t piebar1; /* 0x0_855C PCI inbound extended base address register 1 R/W 0x0000_0000 13.3.2.14/13-27 */ volatile uint32_t piwar1; /* 0x0_8560 PCI inbound window attributes register 1 R/W 0x0000_0000 13.3.2.15/13-28 */ uint8_t reserved0_8564[0x08568-0x08564];/* 0x0_8564 Reserved */ volatile uint32_t pitar0; /* 0x0_8568 PCI inbound translation address register 0 R/W 0x0000_0000 13.3.2.12/13-26 */ uint8_t reserved0_856c[0x08570-0x0856c];/* 0x0_856C Reserved, should be cleared $ $ */ volatile uint32_t pibar0; /* 0x0_8570 PCI inbound base address register 0 R/W 0x0000_0000 13.3.2.13/13-27 */ uint8_t reserved0_8574[0x08578-0x08574];/* 0x0_8574 Reserved */ volatile uint32_t piwar0; /* 0x0_8578 PCI inbound window attributes register 0 R/W 0x0000_0000 13.3.2.14/13-27 */ uint8_t reserved0_857c[0x08580-0x0857c];/* 0x0_857C Reserved, should be cleared $ $ */ uint8_t reserved0_8580[0x08600-0x08580];/* 0x0_8580 Reserved */ } m83xxPCICtrlRegisters_t; typedef struct m83xxUSB_MPHRegisters_ { /* USB MPH Controller Registers */ uint8_t reserved0x2_2000[0x22100-0x22000]; /* 0x2_2000--0x2_20FF Reserved, should be cleared */ volatile uint16_t caplength; /* 0x2_2100 Capability register length R 0x40 16.3.1.1/16-19 */ volatile uint16_t hciversion; /* 0x2_2102 Host interface version number R 0x0100 16.3.1.2/16-19 */ volatile uint32_t hcsparams; /* 0x2_2104 Host crtl. structural parameters R 0x0121_0012 16.3.1.3/16-20 */ volatile uint32_t hccparams; /* 0x2_2108 Host crtl. capability parameters R 0x0000_0006 16.3.1.4/16-21 */ uint8_t reserved0x2_210C[0x22140-0x2210C]; /* Reserved */ volatile uint32_t usbcmd; /* 0x2_2140 USB command R/W 0x0008_nBn0 16.3.2.1/16-23 */ volatile uint32_t usbsts; /* 0x2_2144 USB status R/W 0x0000_0000 16.3.2.2/16-26 */ volatile uint32_t usbintr; /* 0x2_2148 USB interrupt enable R/W 0x0000_0000 16.3.2.3/16-28 */ volatile uint32_t frindex; /* 0x2_214C USB frame index R/W 0x0000_nnnn 16.3.2.4/16-30 */ uint8_t reserved0x2_2150[0x22154-0x22150]; /* Reserved */ volatile uint32_t periodiclistbase; /* 0x2_2154 Frame list base address R/W 0xnnnn_0000 16.3.2.6/16-31 */ volatile uint32_t asynclistaddr; /* 0x2_2158 Next asynchronous list addr R/W 0x0000_0000 16.3.2.8/16-32 */ volatile uint32_t asyncttsts; /* 0x2_215C Asynchronous buffer status for embedded TT TBD 0x0000_0000 16.3.2.10/16-34 */ volatile uint32_t burstsize; /* 0x2_2160 Programmable burst size R/W 0x000_1010 16.3.2.11/16-34 */ volatile uint32_t txfilltuning; /* 0x2_2164 Host TT transmit pre-buffer packet tuning R/W 0x0002_0000 16.3.2.12/16-35 */ volatile uint32_t txttfilltuning; /* 0x2_2168 Host TT transmit pre-buffer packet tuning R/W 0x0000_0000 16.3.2.13/16-37 */ uint8_t reserved0x2_216c[0x22170-0x2216c]; /* Reserved */ volatile uint32_t viewport; /* 0x2_2170 ULPI ULPI Register Access R/W 0x0000_0000 16.3.2.14/16-37 */ uint8_t reserved0x2_2174[0x22180-0x22174]; /* Reserved */ volatile uint32_t configflag; /* 0x2_2180 Configured flag register R 0x0000_0001 16.3.2.15/16-39 */ volatile uint32_t portsc1; /* 0x2_2184 Port status/control 1 R/W 0x8C00_0001 16.3.2.16/16-39 */ volatile uint32_t portsc2; /* 0x2_2188 Port status/control 2 R/W 0x8C00_0001 16.3.2.16/16-39 */ uint8_t reserved0x2_218c[0x221A8-0x2218c]; /* Reserved */ volatile uint32_t usbmode; /* 0x2_21A8 USB device mode R/W 0x0000_0003 16.3.2.18/16-47 */ uint8_t reserved0x2_21AC[0x22400-0x221AC]; /* Reserved */ volatile uint32_t snoop1; /* 0x2_2400 Snoop 1 R/W 0x0000_0000 16.3.2.26/16-53 */ volatile uint32_t snoop2; /* 0x2_2404 Snoop 2 R/W 0x0000_0000 16.3.2.26/16-53 */ volatile uint32_t age_cnt_thresh; /* 0x2_2408 Age count threshold R/W 0x0000_0000 16.3.2.27/16-54 */ volatile uint32_t si_ctrl; /* 0x2_240C System interface control R/W 0x0000_0000 16.3.2.28/16-56 */ volatile uint32_t pri_ctrl; /* 0x2_2410 Priority control R/W 0x0000_0000 16.3.2.29/16-56 */ uint8_t reserved0x2_2414[0x22500-0x22414]; /* Reserved */ volatile uint32_t control; /* 0x2_2500 Control R/W 0x0000_0000 16.3.2.30/16-57 */ uint8_t reserved0x2_2504[0x23000-0x22504]; /* 0x2_2504--0x2_2FFF Reserved, should be cleared */ } m83xxUSB_MPHRegisters_t; typedef struct m83xxUSB_DRRegisters_ { /* USB DR Controller Registers */ uint8_t reserved0x2_3000[0x23100-0x23000]; /* 0x2_3000--0x2_30FF Reserved, should be cleared */ volatile uint16_t caplength; /* 0x2_3100 Capability register length R 0x40 16.3.1.1/16-19 */ volatile uint16_t hciversion; /* 0x2_3102 Host interface version number R 0x0100 16.3.1.2/16-19 */ volatile uint32_t hcsparams; /* 0x2_3104 Host crtl. structural parameters R 0x0111_0011 16.3.1.3/16-20 */ volatile uint32_t hccparams; /* 0x2_3108 Host crtl. capability parameters R 0x0000_0006 16.3.1.4/16-21 */ uint8_t reserved0x2_310c[0x23120-0x2310C]; /* 0x2_310c--0x2_311f Reserved */ volatile uint32_t dciversion; /* 0x2_3120 Device interface version number R 0x0001 16.3.1.5/16-22 */ volatile uint32_t dccparams; /* 0x2_3124 Device controller parameters R 0x0000_0186 16.3.1.6/16-22 */ uint8_t reserved0x2_3128[0x23140-0x23128]; /* 0x2_3128--0x2_313f Reserved */ volatile uint32_t usbcmd; /* 0x2_3140 USB command R/W 0x0008_nBn0 16.3.2.1/16-23 */ volatile uint32_t usbsts; /* 0x2_3144 USB status R/W 0x0000_0000 16.3.2.2/16-26 */ volatile uint32_t usbintr; /* 0x2_3148 USB interrupt enable R/W 0x0000_0000 16.3.2.3/16-28 */ volatile uint32_t frindex; /* 0x2_314C USB frame index R/W 0x0000_nnnn 16.3.2.4/16-30 */ uint8_t reserved0x2_3150[0x23154-0x23150]; /* 0x2_3150--0x2_3153 Reserved */ union { volatile uint32_t periodiclistbase; /* 0x2_3154 Frame list base address R/W 0xnnnn_0000 16.3.2.6/16-31 */ volatile uint32_t deviceaddr; /* 0x2_3154 USB device address R/W 0x0000_0000 16.3.2.7/16-32 */ } perbase_devaddr; union { volatile uint32_t asynclistaddr; /* 0x2_3158 Next asynchronous list addr (host mode) R/W 0x0000_0000 16.3.2.8/16-32 */ volatile uint32_t addr; /* 0x2_3158 ENDPOINT Address at endpoint list (device mode) R/W 0x0000_0000 16.3.2.9/16-33 */ } async_addr; uint8_t reserved0x2_315c[0x23160-0x2315c]; /* 0x2_315c--0x2_315f Reserved */ volatile uint32_t burstsize; /* 0x2_3160 Programmable burst size R/W 0x0000_1010 16.3.2.11/16-34 */ volatile uint32_t txfilltuning; /* 0x2_3164 Host TT transmit pre-buffer packet tuning R/W 0x0002_0000 16.3.2.12/16-35 */ uint8_t reserved0x2_3168[0x23170-0x23168]; /* 0x2_3168--0x2_316f Reserved */ volatile uint32_t viewport; /* 0x2_3170 ULPI ULPI Register Access R/W 0x0000_0000 16.3.2.14/16-37 */ uint8_t reserved0x2_3174[0x23180-0x23174]; /* 0x2_3174--0x2_317F Reserved */ volatile uint32_t configflag; /* 0x2_3180 Configured flag register R 0x0000_0001 16.3.2.15/16-39 */ volatile uint32_t portsc1; /* 0x2_3184 Port status/control R/W 0x9C00_0000 16.3.2.16/16-39 */ uint8_t reserved0x2_3188[0x231A4-0x23188]; /* 0x2_3188--0x2_31A3 Reserved */ volatile uint32_t otgsc; /* 0x2_31A4 On-the-Go status and control R/W 0x0000_0001 16.3.2.17/16-44 */ volatile uint32_t usbmode; /* 0x2_31A8 USB device mode R/W 0x0000_0000 16.3.2.18/16-47 */ volatile uint32_t endptsetupstat; /* 0x2_31AC Endpoint setup status R/W 0x0000_0000 16.3.2.19/16-48 */ volatile uint32_t endpointprime; /* 0x2_31B0 Endpoint initialization R/W 0x0000_0000 16.3.2.20/16-48 */ volatile uint32_t endptflush; /* 0x2_31B4 Endpoint de-initialize R/W 0x0000_0000 16.3.2.21/16-49 */ volatile uint32_t endptstatus; /* 0x2_31B8 Endpoint status R 0x0000_0000 16.3.2.22/16-50 */ volatile uint32_t endptcomplete; /* 0x2_31BC Endpoint complete R/W 0x0000_0000 16.3.2.23/16-50 */ volatile uint32_t endptctrl[6]; /* 0x2_31C0 Endpoint control 0 R/W 0x0080_0080 16.3.2.24/16-51 */ uint8_t reserved0x2_31D8[0x23400-0x231D8]; /* 0x2_31D8--0x2_33ff Reserved */ volatile uint32_t snoop1; /* 0x2_3400 Snoop 1 R/W 0x0000_0000 16.3.2.26/16-53 */ volatile uint32_t snoop2; /* 0x2_3404 Snoop 2 R/W 0x0000_0000 16.3.2.26/16-53 */ volatile uint32_t age_cnt_thresh; /* 0x2_3408 Age count threshold R/W 0x0000_0000 16.3.2.27/16-54 */ volatile uint32_t pri_ctrl; /* 0x2_340C Priority control R/W 0x0000_0000 16.3.2.29/16-56 */ volatile uint32_t si_ctrl; /* 0x2_3410 System interface control R/W 0x0000_0000 16.3.2.28/16-56 */ uint8_t reserved0x2_3414[0x23500-0x23414]; /* 0x2_3414--0x2_34ff Reserved */ volatile uint32_t control; /* 0x2_3500 Control R/W 0x0000_0000 16.3.2.30/16-57 */ uint8_t reserved0x2_3504[0x24000-0x23504]; /* 0x2_3504--0x2_3FFF Reserved, should be cleared */ } m83xxUSB_DRRegisters_t; /* * this enumeration defines the index * of a given rmon mib counter * in the tsec_rmon_mib array */ typedef enum { /* TSEC1 Transmit and Receive Counters */ m83xx_tsec_rmon_tr64, /* 0x2_4680 Transmit and receive 64-byte frame counter register R/W 0x0000_0000 15.5.3.7.1/15-60 */ m83xx_tsec_rmon_tr127, /* 0x2_4684 Transmit and receive 65- to 127-byte frame counter register R/W 0x0000_0000 15.5.3.7.2/15-61 */ m83xx_tsec_rmon_tr255, /* 0x2_4688 Transmit and receive 128- to 255-byte frame counter register R/W 0x0000_0000 15.5.3.7.3/15-61 */ m83xx_tsec_rmon_tr511, /* 0x2_468C Transmit and receive 256- to 511-byte frame counter register R/W 0x0000_0000 15.5.3.7.4/15-62 */ m83xx_tsec_rmon_tr1k, /* 0x2_4690 Transmit and receive 512- to 1023-byte frame counter register R/W 0x0000_0000 15.5.3.7.5/15-62 */ m83xx_tsec_rmon_trmax, /* 0x2_4694 Transmit and receive 1024- to 1518-byte frame counter register R/W 0x0000_0000 15.5.3.7.6/15-63 */ m83xx_tsec_rmon_trmgv, /* 0x2_4698 Transmit and receive 1519- to 1522-byte good VLAN frame count register R/W 0x0000_0000 15.5.3.7.7/15-63 */ /* TSEC1 Receive Counters */ m83xx_tsec_rmon_rbyt, /* 0x2_469C Receive byte counter register R/W 0x0000_0000 15.5.3.7.8/15-64 */ m83xx_tsec_rmon_rpkt, /* 0x2_46A0 Receive packet counter register R/W 0x0000_0000 15.5.3.7.9/15-64 */ m83xx_tsec_rmon_rfcs, /* 0x2_46A4 Receive FCS error counter register R/W 0x0000_0000 15.5.3.7.10/15-65 */ m83xx_tsec_rmon_rmca, /* 0x2_46A8 Receive multicast packet counter register R/W 0x0000_0000 15.5.3.7.11/15-65 */ m83xx_tsec_rmon_rbca, /* 0x2_46AC Receive broadcast packet counter register R/W 0x0000_0000 15.5.3.7.12/15-66 */ m83xx_tsec_rmon_rxcf, /* 0x2_46B0 Receive control frame packet counter register R/W 0x0000_0000 15.5.3.7.13/15-66 */ m83xx_tsec_rmon_rxpf, /* 0x2_46B4 Receive PAUSE frame packet counter register R/W 0x0000_0000 15.5.3.7.14/15-67 */ m83xx_tsec_rmon_rxuo, /* 0x2_46B8 Receive unknown OP code counter register R/W 0x0000_0000 15.5.3.7.15/15-67 */ m83xx_tsec_rmon_raln, /* 0x2_46BC Receive alignment error counter register R/W 0x0000_0000 15.5.3.7.16/15-68 */ m83xx_tsec_rmon_rflr, /* 0x2_46C0 Receive frame length error counter register R/W 0x0000_0000 15.5.3.7.17/15-68 */ m83xx_tsec_rmon_rcde, /* 0x2_46C4 Receive code error counter register R/W 0x0000_0000 15.5.3.7.18/15-69 */ m83xx_tsec_rmon_rcse, /* 0x2_46C8 Receive carrier sense error counter register R/W 0x0000_0000 15.5.3.7.19/15-69 */ m83xx_tsec_rmon_rund, /* 0x2_46CC Receive undersize packet counter register R/W 0x0000_0000 15.5.3.7.20/15-70 */ m83xx_tsec_rmon_rovr, /* 0x2_46D0 Receive oversize packet counter register R/W 0x0000_0000 15.5.3.7.21/15-70 */ m83xx_tsec_rmon_rfrg, /* 0x2_46D4 Receive fragments counter register R/W 0x0000_0000 15.5.3.7.22/15-71 */ m83xx_tsec_rmon_rjbr, /* 0x2_46D8 Receive jabber counter register R/W 0x0000_0000 15.5.3.7.23/15-71 */ m83xx_tsec_rmon_rdrp, /* 0x2_46DC Receive drop register R/W 0x0000_0000 15.5.3.7.24/15-72 */ /* TSEC1 Transmit Counters */ m83xx_tsec_rmon_tbyt, /* 0x2_46E0 Transmit byte counter register R/W 0x0000_0000 15.5.3.7.25/15-72 */ m83xx_tsec_rmon_tpkt, /* 0x2_46E4 Transmit packet counter register R/W 0x0000_0000 15.5.3.7.26/15-73 */ m83xx_tsec_rmon_tmca, /* 0x2_46E8 Transmit multicast packet counter register R/W 0x0000_0000 15.5.3.7.27/15-73 */ m83xx_tsec_rmon_tbca, /* 0x2_46EC Transmit broadcast packet counter register R/W 0x0000_0000 15.5.3.7.28/15-74 */ m83xx_tsec_rmon_txpf, /* 0x2_46F0 Transmit PAUSE control frame counter register R/W 0x0000_0000 15.5.3.7.29/15-74 */ m83xx_tsec_rmon_tdfr, /* 0x2_46F4 Transmit deferral packet counter register R/W 0x0000_0000 15.5.3.7.30/15-75 */ m83xx_tsec_rmon_tedf, /* 0x2_46F8 Transmit excessive deferral packet counter register R/W 0x0000_0000 15.5.3.7.31/15-75 */ m83xx_tsec_rmon_tscl, /* 0x2_46FC Transmit single collision packet counter register R/W 0x0000_0000 15.5.3.7.32/15-76 */ m83xx_tsec_rmon_tmcl, /* 0x2_4700 Transmit multiple collision packet counter register R/W 0x0000_0000 15.5.3.7.33/15-76 */ m83xx_tsec_rmon_tlcl, /* 0x2_4704 Transmit late collision packet counter register R/W 0x0000_0000 15.5.3.7.34/15-77 */ m83xx_tsec_rmon_txcl, /* 0x2_4708 Transmit excessive collision packet counter register R/W 0x0000_0000 15.5.3.7.35/15-77 */ m83xx_tsec_rmon_tncl, /* 0x2_470C Transmit total collision counter register R/W 0x0000_0000 15.5.3.7.36/15-78 */ m83xx_tsec_reserved1, /* 0x2_4710 Reserved, should be cleared R 0x0000_0000 */ m83xx_tsec_rmon_tdrp, /* 0x2_4714 Transmit drop frame counter register R/W 0x0000_0000 15.5.3.7.37/15-78 */ m83xx_tsec_rmon_tjbr, /* 0x2_4718 Transmit jabber frame counter register R/W 0x0000_0000 15.5.3.7.38/15-79 */ m83xx_tsec_rmon_tfcs, /* 0x2_471C Transmit FCS error counter register R/W 0x0000_0000 15.5.3.7.39/15-79 */ m83xx_tsec_rmon_txcf, /* 0x2_4720 Transmit control frame counter register R/W 0x0000_0000 15.5.3.7.40/15-80 */ m83xx_tsec_rmon_tovr, /* 0x2_4724 Transmit oversize frame counter register R/W 0x0000_0000 15.5.3.7.41/15-80 */ m83xx_tsec_rmon_tund, /* 0x2_4728 Transmit undersize frame counter register R/W 0x0000_0000 15.5.3.7.42/15-81 */ m83xx_tsec_rmon_tfrg, /* 0x2_472C Transmit fragments frame counter register R/W 0x0000_0000 15.5.3.7.43/15-81 */ m83xx_tsec_rmon_cnt } m83xx_tsec_rmon_idx_t; /* TSEC1/2 General Control and Status Registers */ typedef struct m83xxTSEC_Registers_ { uint8_t reserved0x2_4000[0x24010-0x24000]; /* 0x2_4000--0x2_400F Reserved, should be cleared */ volatile uint32_t ievent; /* 0x2_4010 Interrupt event register R/W 0x0000_0000 15.5.3.1.1/15-19 */ volatile uint32_t imask; /* 0x2_4014 Interrupt mask register R/W 0x0000_0000 15.5.3.1.2/15-22 */ volatile uint32_t edis; /* 0x2_4018 Error disabled register R/W 0x0000_0000 15.5.3.1.3/15-24 */ uint8_t reserved0x2_401c[0x24020-0x2401c]; /* 0x2_401c--0x2_401f Reserved, should be cleared */ volatile uint32_t ecntrl; /* 0x2_4020 Ethernet control register R/W 0x0000_0000 15.5.3.1.4/15-25 */ volatile uint32_t minflr; /* 0x2_4024 Minimum frame length register R/W 0x0000_0040 15.5.3.1.5/15-26 */ volatile uint32_t ptv; /* 0x2_4028 Pause time value register R/W 0x0000_0000 15.5.3.1.6/15-27 */ volatile uint32_t dmactrl; /* 0x2_402C DMA control register R/W 0x0000_0000 15.5.3.1.7/15-28 */ volatile uint32_t tbipa; /* 0x2_4030 TBI PHY address register R/W 0x0000_0000 15.5.3.1.8/15-29 */ uint8_t reserved0x2_4034[0x2408c-0x24034]; /* 0x2_4034--0x2_408b Reserved, should be cleared */ /* TSEC1 FIFO Control and Status Registers */ volatile uint32_t fifo_tx_thr; /* 0x2_408C FIFO transmit threshold register R/W 0x0000_0100 15.5.3.2.1/15-30 */ uint8_t reserved0x2_4090[0x24094-0x24090]; /* 0x2_4090--0x2_4093 Reserved, should be cleared */ volatile uint32_t fifo_tx_sp; /* 0x2_4094 FIFO transmit space available register R/W 0x0000_0010 15.5.3.2.2/15-31 */ volatile uint32_t fifo_tx_starve; /* 0x2_4098 FIFO transmit starve register R/W 0x0000_0080 15.5.3.2.3/15-31 */ volatile uint32_t fifo_tx_starve_shutoff; /* 0x2_409C FIFO transmit starve shutoff register R/W 0x0000_0100 15.5.3.2.4/15-32 */ uint8_t reserved0x2_40A0[0x24100-0x240A0]; /* 0x2_40A0--0x2_40ff Reserved, should be cleared */ /* TSEC1 Transmit Control and Status Registers */ volatile uint32_t tctrl; /* 0x2_4100 Transmit control register R/W 0x0000_0000 15.5.3.3.1/15-33 */ volatile uint32_t tstat; /* 0x2_4104 Transmit status register R/W 0x0000_0000 15.5.3.3.2/15-34 */ uint8_t reserved0x2_4108[0x24110-0x24108]; /* 0x2_4108 Reserved, should be cleared R 0x0000_0000 */ volatile uint32_t txic; /* 0x2_4110 Transmit interrupt coalescing configuration register R/W 0x0000_0000 */ uint8_t reserved0x2_4114[0x24124-0x24114]; /* 0x2_4114--0x2_4120 Reserved, should be cleared */ volatile uint32_t ctbptr; /* 0x2_4124 Current TxBD pointer register R 0x0000_0000 15.5.3.3.5/15-36 */ uint8_t reserved0x2_4128[0x24184-0x24128]; /* 0x2_4128--0x2_4180 Reserved, should be cleared */ volatile uint32_t tbptr; /* 0x2_4184 TxBD pointer register R/W 0x0000_0000 15.5.3.3.6/15-36 */ uint8_t reserved0x2_4188[0x24204-0x24188]; /* 0x2_4188--0x2_4200 Reserved, should be cleared */ volatile uint32_t tbase; /* 0x2_4204 TxBD base address register R/W 0x0000_0000 15.5.3.3.7/15-37 */ uint8_t reserved0x2_4208[0x242B0-0x24208]; /* 0x2_4208--0x2_42AC Reserved, should be cleared */ volatile uint32_t ostbd; /* 0x2_42B0 Out-of-sequence TxBD register R/W 0x0800_0000 15.5.3.3.8/15-37 */ volatile uint32_t ostbdp; /* 0x2_42B4 Out-of-sequence Tx data buffer pointer register R/W 0x0000_0000 15.5.3.3.9/15-39 */ uint8_t reserved0x2_42B8[0x24300-0x242B8]; /* 0x2_42B8--0x2_42FC Reserved, should be cleared */ /* TSEC1 Receive Control and Status Registers */ volatile uint32_t rctrl; /* 0x2_4300 Receive control register R/W 0x0000_0000 15.5.3.4.1/15-40 */ volatile uint32_t rstat; /* 0x2_4304 Receive status register R/W 0x0000_0000 15.5.3.4.2/15-41 */ uint8_t reserved0x2_4308[0x2430C-0x24308]; /* 0x2_4308 Reserved, should be cleared R 0x0000_0000 */ volatile uint32_t rbdlen; /* 0x2_430C RxBD data length register R 0x0000_0000 15.5.3.4.3/15-41 */ volatile uint32_t rxic; /* 0x2_4310 Receive interrupt coalescing configuration register R/W 0x0000_0000 15.5.3.4.4/15-42 */ uint8_t reserved0x2_4314[0x24324-0x24314]; /* 0x2_4314--0x2_4320 Reserved, should be cleared */ volatile uint32_t crbptr; /* 0x2_4324 Current RxBD pointer register R 0x0000_0000 15.5.3.4.5/15-43 */ uint8_t reserved0x2_4328[0x24340-0x24328]; /* 0x2_4328--0x2_433C Reserved, should be cleared */ volatile uint32_t mrblr; /* 0x2_4340 Maximum receive buffer length register R/W 0x0000_0000 15.5.3.4.6/15-43 */ uint8_t reserved0x2_4344[0x24384-0x24344]; /* 0x2_4344--0x2_4380 Reserved, should be cleared */ volatile uint32_t rbptr; /* 0x2_4384 RxBD pointer register R/W 0x0000_0000 15.5.3.4.7/15-44 */ uint8_t reserved0x2_4388[0x24404-0x24388]; /* 0x2_4388--0x2_4400 Reserved, should be cleared */ volatile uint32_t rbase; /* 0x2_4404 RxBD base address register R/W 0x0000_0000 15.5.3.4.8/15-44 */ uint8_t reserved0x2_4408[0x24500-0x24408]; /* 0x2_4408--0x2_44FC Reserved, should be cleared */ /* TSEC1 MAC Registers */ volatile uint32_t maccfg1; /* 0x2_4500 MAC configuration register 1 R/W, R 0x0000_0000 15.5.3.6.1/15-48 */ volatile uint32_t maccfg2; /* 0x2_4504 MAC configuration register 2 R/W 0x0000_7000 15.5.3.6.2/15-49 */ volatile uint32_t ipgifg; /* 0x2_4508 Inter-packet gap/inter-frame gap register R/W 0x4060_5060 15.5.3.6.3/15-51 */ volatile uint32_t hafdup; /* 0x2_450C Half-duplex register R/W 0x00A1_F037 15.5.3.6.4/15-52 */ volatile uint32_t maxfrm; /* 0x2_4510 Maximum frame length register R/W 0x0000_0600 15.5.3.6.5/15-53 */ uint8_t reserved0x2_4514[0x24520-0x24514]; /* 0x2_4514--0x2_451C Reserved, should be cleared */ volatile uint32_t miimcfg; /* 0x2_4520 MII management configuration register R/W 0x0000_0000 15.5.3.6.6/15-53 */ volatile uint32_t miimcom; /* 0x2_4524 MII management command register R/W 0x0000_0000 15.5.3.6.7/15-54 */ volatile uint32_t miimadd; /* 0x2_4528 MII management address register R/W 0x0000_0000 15.5.3.6.8/15-55 */ volatile uint32_t miimcon; /* 0x2_452C MII management control register W 0x0000_0000 15.5.3.6.9/15-56 */ volatile uint32_t miimstat; /* 0x2_4530 MII management status register R 0x0000_0000 15.5.3.6.10/15-56 */ volatile uint32_t miimind; /* 0x2_4534 MII management indicator register R 0x0000_0000 15.5.3.6.11/15-57 */ uint8_t reserved0x2_4538[0x2453c-0x24538]; /* 0x2_4538 Reserved, should be cleared $ $ */ volatile uint32_t ifstat; /* 0x2_453C Interface status register Special 0x0000_0001 15.5.3.6.12/15-58 */ volatile uint32_t macstnaddr[2]; /* 0x2_4540 Station address register, part 1/2 R/W 0x0000_0000 15.5.3.6.13/15-58 */ uint8_t reserved0x2_4548[0x24680-0x24548]; /* 0x2_4548--0x2_467C Reserved, should be cleared */ /* TSEC1 RMON MIB Registers */ volatile uint32_t rmon_mib[m83xx_tsec_rmon_cnt]; /* TSEC1 General Registers */ volatile uint32_t car[2]; /* 0x2_4730 Carry register one/two register R 0x0000_0000 15.5.3.7.44/15-82 */ volatile uint32_t cam[2]; /* 0x2_4738 Carry register one/two mask register R/W 0xFE01_FFFF 15.5.3.7.46/15-85 */ uint8_t reserved0x2_4740[0x24800-0x24740]; /* 0x2_4740--0x2_47FC Reserved, should be cleared */ /* TSEC1 Hash Function Registers */ volatile uint32_t iaddr[8]; /* 0x2_4800 Individual address register 0-7 R/W 0x0000_0000 15.5.3.8.1/15-87 */ uint8_t reserved0x2_4820[0x24880-0x24820]; /* 0x2_4820--0x2_487C Reserved, should be cleared */ volatile uint32_t gaddr[8]; /* 0x2_4880 Group address register 0-7 R/W 0x0000_0000 15.5.3.8.2/15-88 */ uint8_t reserved0x2_48A0[0x24B00-0x248A0]; /* 0x2_48A0--0x2_4AFF Reserved, should be cleared */ /* TSEC1 Attribute Registers */ uint8_t reserved0x2_4B00[0x24BF8-0x24B00]; /* 0x2_4B00--0x2_4BF4 Reserved, should be cleared */ volatile uint32_t attr; /* 0x2_4BF8 Attribute register R 0x0000_0000 */ volatile uint32_t attreli; /* 0x2_4BFC Attribute extract length and extract index register R/W 0x0000_0000 */ uint8_t reserved0x2_4C00[0x25000-0x24C00]; /* 0x2_4C00--0x2_4FFF Reserved, should be cleared */ } m83xxTSEC_Registers_t; /* * TSEC IEVENT/IMASK bit definitions */ #define M83xx_TSEC_IEVENT_BABR (1<<(31- 0)) #define M83xx_TSEC_IEVENT_RXC (1<<(31- 1)) #define M83xx_TSEC_IEVENT_BSY (1<<(31- 2)) #define M83xx_TSEC_IEVENT_EBERR (1<<(31- 3)) #define M83xx_TSEC_IEVENT_MSRO (1<<(31- 5)) #define M83xx_TSEC_IEVENT_GTSC (1<<(31- 6)) #define M83xx_TSEC_IEVENT_BABT (1<<(31- 7)) #define M83xx_TSEC_IEVENT_TXC (1<<(31- 8)) #define M83xx_TSEC_IEVENT_TXE (1<<(31- 9)) #define M83xx_TSEC_IEVENT_TXB (1<<(31-10)) #define M83xx_TSEC_IEVENT_TXF (1<<(31-11)) #define M83xx_TSEC_IEVENT_LC (1<<(31-13)) #define M83xx_TSEC_IEVENT_CRL_XDA (1<<(31-14)) #define M83xx_TSEC_IEVENT_XFUN (1<<(31-15)) #define M83xx_TSEC_IEVENT_RXB (1<<(31-16)) #define M83xx_TSEC_IEVENT_MMRD (1<<(31-21)) #define M83xx_TSEC_IEVENT_MMWR (1<<(31-22)) #define M83xx_TSEC_IEVENT_GRSC (1<<(31-23)) #define M83xx_TSEC_IEVENT_RXF (1<<(31-24)) /* * TSEC DMACTRL bit definitions */ #define M83xx_TSEC_DMACTL_TDSEN (1<<(31-24)) #define M83xx_TSEC_DMACTL_TBDSEN (1<<(31-25)) #define M83xx_TSEC_DMACTL_GRS (1<<(31-27)) #define M83xx_TSEC_DMACTL_GTS (1<<(31-28)) #define M83xx_TSEC_DMACTL_WWR (1<<(31-30)) #define M83xx_TSEC_DMACTL_WOP (1<<(31-31)) /* * TSEC TSTAT bit definitions */ #define M83xx_TSEC_TSTAT_THLT (1<<(31-0)) /* * TSEC RSTAT bit definitions */ #define M83xx_TSEC_RSTAT_QHLT (1<<(31-8)) /* * TSEC ECNTRL bit positions */ #define M83xx_TSEC_ECNTRL_CLRCNT (1 << (31-17)) /* Clear stat counters */ #define M83xx_TSEC_ECNTRL_AUTOZ (1 << (31-18)) /* auto-zero read counters */ #define M83xx_TSEC_ECNTRL_STEN (1 << (31-19)) /* enable statistics */ #define M83xx_TSEC_ECNTRL_TBIM (1 << (31-26)) /* ten-bit-interface */ #define M83xx_TSEC_ECNTRL_RPM (1 << (31-27)) /* reduced signal mode */ #define M83xx_TSEC_ECNTRL_R100M (1 << (31-28)) /* RGMII100 mode */ /* * TSEC EDIS bit positions */ #define M83xx_TSEC_EDIS_BSYDIS (1 << (31- 2)) /* Busy disable */ #define M83xx_TSEC_EDIS_EBERRDIS (1 << (31- 3)) /* bus error disable */ #define M83xx_TSEC_EDIS_TXEDIS (1 << (31- 9)) /* Tx error disable */ #define M83xx_TSEC_EDIS_LCDIS (1 << (31-13)) /* Late collision disable */ #define M83xx_TSEC_EDIS_CRLXDADIS (1 << (31-14)) /* Collision Retry disable */ #define M83xx_TSEC_EDIS_FUNDIS (1 << (31-15)) /* Tx FIFO underrun disable*/ /* * TSEC RCTRL bit positions */ #define M83xx_TSEC_RCTRL_BC_REJ (1 << (31-27)) /* Broadcast Reject */ #define M83xx_TSEC_RCTRL_PROM (1 << (31-28)) /* Promiscuous */ #define M83xx_TSEC_RCTRL_RSF (1 << (31-29)) /* Receive short frames */ /* * TSEC TXIC bit positions */ #define M83xx_TSEC_TXIC_ICEN (1 << (31- 0)) /* Irq coalescing enable */ #define M83xx_TSEC_TXIC_ICFCT(n) (((n)&0xff) << (31-10)) /* Frame coal. cnt */ #define M83xx_TSEC_TXIC_ICTT(n) (((n)&0xffff) << (31-31)) /* Buf. coal. cnt */ /* * TSEC RXIC bit positions */ #define M83xx_TSEC_RXIC_ICEN (1 << (31- 0)) /* Irq coalescing enable */ #define M83xx_TSEC_RXIC_ICFCT(n) (((n)&0xff) << (31-10)) /* Frame coal. cnt */ #define M83xx_TSEC_RXIC_ICTT(n) (((n)&0xffff) << (31-31)) /* Buf. coal. cnt */ /* * TSEC MACCFG1 bit positions */ #define M83xx_TSEC_MACCFG1_SOFTRST (1 << (31- 0)) /* Soft Reset */ #define M83xx_TSEC_MACCFG1_RES_RXMC (1 << (31-12)) /* Reset Rx MAC block */ #define M83xx_TSEC_MACCFG1_RES_TXMC (1 << (31-13)) /* Reset Tx MAC block */ #define M83xx_TSEC_MACCFG1_RES_RXFUN (1 << (31-14)) /* Reset Rx function blk*/ #define M83xx_TSEC_MACCFG1_RES_TXFUN (1 << (31-15)) /* Reset Tx function blk*/ #define M83xx_TSEC_MACCFG1_LOOPBACK (1 << (31-23)) /* Loopback mode */ #define M83xx_TSEC_MACCFG1_RX_FLOW (1 << (31-26)) /* Receive Flow Ctrl */ #define M83xx_TSEC_MACCFG1_TX_FLOW (1 << (31-27)) /* Transmit Flow Ctrl */ #define M83xx_TSEC_MACCFG1_SYNVRXEN (1 << (31-28)) /* Sync Receive Enable */ #define M83xx_TSEC_MACCFG1_RXEN (1 << (31-29)) /* Receive Enable */ #define M83xx_TSEC_MACCFG1_SYNVTXEN (1 << (31-30)) /* Sync Transmit Enable */ #define M83xx_TSEC_MACCFG1_TXEN (1 << (31-31)) /* Transmit Enable */ /* * TSEC MACCFG2 bit positions */ #define M83xx_TSEC_MACCFG2_PRELEN(n) (((n)&0x0f) << (31-19)) /* Preamble len*/ #define M83xx_TSEC_MACCFG2_IFMODE_MSK (3 << (31-23)) /* mode mask */ #define M83xx_TSEC_MACCFG2_IFMODE_NIB (1 << (31-23)) /* nibble mode */ #define M83xx_TSEC_MACCFG2_IFMODE_BYT (2 << (31-23)) /* byte mode */ #define M83xx_TSEC_MACCFG2_HUGE_FRAME (1 << (31-26)) /* Huge Frame */ #define M83xx_TSEC_MACCFG2_LENGTH_CHK (1 << (31-27)) /* Length Check */ #define M83xx_TSEC_MACCFG2_PAD_CRC (1 << (31-29)) /* MAC adds PAD/CRC */ #define M83xx_TSEC_MACCFG2_CRC_EN (1 << (31-30)) /* CRC enable */ #define M83xx_TSEC_MACCFG2_FULLDUPLEX (1 << (31-31)) /* Full Duplex Mode */ /* * TSEC MIIMADD bit positions */ #define M83xx_TSEC_MIIMADD_PHY(n) (((n) & 0x3f)<<(31- 23)) /* PHY addr */ #define M83xx_TSEC_MIIMADD_REGADDR(n) (((n) & 0x3f)<<(31- 31)) /* PHY addr */ /* * TSEC MIIMCOM bit positions */ #define M83xx_TSEC_MIIMCOM_SCAN (1 << (31-30)) /* Scan command */ #define M83xx_TSEC_MIIMCOM_READ (1 << (31-31)) /* Read command */ /* * TSEC MIIMIND bit positions */ #define M83xx_TSEC_MIIMIND_NVAL (1 << (31-29)) /* not valid */ #define M83xx_TSEC_MIIMIND_SCAN (1 << (31-30)) /* Scan in progress */ #define M83xx_TSEC_MIIMIND_BUSY (1 << (31-31)) /* Acc. in progress */ /* * TSEC ATTR bit positions */ #define M83xx_TSEC_ATTR_RDSEN (1 << (31-24)) /* read data snoop */ #define M83xx_TSEC_ATTR_RBDSEN (1 << (31-25)) /* read BD snoop */ #if 0 /* FIXME: to be formatted soon */ /* Security Engine Address Map Registers */ /* Controller Registers */ volatile uint32_t reserved;## /* 0x3_0000--0x3_0FFF Reserved, should be cleared */ volatile uint32_t imr; /* 0x3_1008 Interrupt mask register R/W 0x0000_0000_0000_0000 14.7.2.1/14-94 */ volatile uint32_t isr; /* 0x3_1010 Interrupt status register R 0x0000_0000_0000_0000 14.7.2.2/14-96 */ volatile uint32_t icr; /* 0x3_1018 Interrupt clear register W 0x0000_0000_0000_0000 14.7.2.3/14-96 */ volatile uint32_t id; /* 0x3_1020 Identification register R 0x0000_0000_0000_00400x 14.7.2.4/14-98 */ volatile uint32_t euasr; /* 0x3_1028 EU assignment status register R 0xF0F0_F0F0_00FF_F0F0 14.7.2/14-93 */ volatile uint32_t mcr; /* 0x3_1030 Master control register R/W 0000_0000_0000_0000 14.7.2.5/14-98 */ /* Channel 1 */ volatile uint32_t cccr1; /* 0x3_1108 Crypto-channel 1 configuration register R/W 0x0000_0000_0000_0000 14.6.1.1/14-82 */ volatile uint32_t ccpsr1; /* 0x3_1110 Crypto-channel 1 pointer status register R 0x0000_0000_0000_0007 14.6.1.2/14-85 */ volatile uint32_t cdpr1; /* 0x3_1140 Crypto-channel 1 current descriptor pointer register R 0x0000_0000_0000_0000 14.6.1.3/14-90 */ volatile uint32_t */ 0x3_1180--0x3_11BF DBn /* volatile; uint32_t ff1, /* 0x3_1148 Crypto-channel 1 fetch FIFO address register W 0x0000_0000_0000_0000 14.6.1.4/14-90 Crypto-channel 1 descriptor buffers [0–7] R 0x0000_0000_0000_0000 14.6.1.5/14-91 */ /* Channel 2-4: FIXME: same layout as channel 1*/ /* Data Encryption Standard Execution Unit (DEU) */ volatile uint32_t deumr; /* 0x3_2000 DEU mode register R/W 0x0000_0000_0000_0000 14.5.2.1/14-35 */ volatile uint32_t deuksr; /* 0x3_2008 DEU key size register R/W 0x0000_0000_0000_0000 14.5.2.2/14-36 */ volatile uint32_t deudsr; /* 0x3_2010 DEU data size register R/W 0x0000_0000_0000_0000 14.5.2.3/14-36 */ volatile uint32_t deurcr; /* 0x3_2018 DEU reset control register R/W 0x0000_0000_0000_0000 14.5.2.4/14-37 */ volatile uint32_t deusr; /* 0x3_2028 DEU status register R 0x0000_0000_0000_0000 14.5.2.5/14-37 */ volatile uint32_t deuisr; /* 0x3_2030 DEU interrupt status register R 0x0000_0000_0000_0000 14.5.2.6/14-38 */ volatile uint32_t deuicr; /* 0x3_2038 DEU interrupt control register R/W 0x0000_0000_0000_3000 14.5.2.7/14-40 */ volatile uint32_t deueug; /* 0x3_2050 DEU EU-Go register W 0x0000_0000_0000_0000 14.5.2.8/14-41 */ volatile uint32_t deuiv; /* 0x3_2100 DEU initialization vector register R/W 0x0000_0000_0000_0000 14.5.2.9/14-42 */ volatile uint32_t deuk1; /* 0x3_2400 DEU key 1 register W $ 14.5.2.10/14-42 */ volatile uint32_t deuk2; /* 0x3_2408 DEU key 2 register W $ 14.5.2.10/14-42 */ volatile uint32_t deuk3; /* 0x3_2410 DEU key 3 register W $ 14.5.2.10/14-42 */ 0x3_2800--0x3_2FFF DEU FIFO R/W 0x0000_0000_0000_0000 14.5.2.11/14-42 /* Advanced Encryption Standard Execution Unit (AESU) */ volatile uint32_t aesumr; /* 0x3_4000 AESU mode register R/W 0x0000_0000_0000_0000 14.5.6.1/14-68 */ volatile uint32_t aesuksr; /* 0x3_4008 AESU key size register R/W 0x0000_0000_0000_0000 14.5.6.2/14-71 */ volatile uint32_t aesudsr; /* 0x3_4010 AESU data size register R/W 0x0000_0000_0000_0000 14.5.6.3/14-71 */ volatile uint32_t aesurcr; /* 0x3_4018 AESU reset control register R/W 0x0000_0000_0000_0000 14.5.6.4/14-72 */ volatile uint32_t aesusr; /* 0x3_4028 AESU status register R 0x0000_0000_0000_0000 14.5.6.5/14-73 */ volatile uint32_t aesuisr; /* 0x3_4030 AESU interrupt status register R 0x0000_0000_0000_0000 14.5.6.6/14-74 */ volatile uint32_t aesuicr; /* 0x3_4038 AESU interrupt control register R/W 0x0000_0000_0000_1000 14.5.6.7/14-75 */ volatile uint32_t aesuemr; /* 0x3_4050 AESU end-of-message register W 0x0000_0000_0000_0000 14.5.6.8/14-76 */ 0x3_4100 AESU context memory registers R/W 0x0000_0000_0000_0000 14.5.6.9/14-77 0x3_4400--0x3_4408 AESU key memory R/W 0x0000_0000_0000_0000 14.5.6.9.5/14-81 0x3_4800--0x3_4FFF AESU FIFO R/W 0x0000_0000_0000_0000 14.5.6.9.6/14-81 /* Message Digest Execution Unit (MDEU) */ volatile uint32_t mdeumr; /* 0x3_6000 MDEU mode register R/W 0x0000_0000_0000_0000 14.5.4.1/14-51 */ volatile uint32_t mdeuksr; /* 0x3_6008 MDEU key size register R/W 0x0000_0000_0000_0000 14.5.4.3/14-55 */ volatile uint32_t mdeudsr; /* 0x3_6010 MDEU data size register R/W 0x0000_0000_0000_0000 14.5.4.4/14-56 */ volatile uint32_t mdeurcr; /* 0x3_6018 MDEU reset control register R/W 0x0000_0000_0000_0000 14.5.4.5/14-56 */ volatile uint32_t mdeusr; /* 0x3_6028 MDEU status register R 0x0000_0000_0000_0000 14.5.4.6/14-57 */ volatile uint32_t mdeuisr; /* 0x3_6030 MDEU interrupt status register R 0x0000_0000_0000_0000 14.5.4.7/14-58 */ volatile uint32_t mdeuicr; /* 0x3_6038 MDEU interrupt control register R/W 0x0000_0000_0000_1000 14.5.4.8/14-59 */ volatile uint32_t mdeueug; /* 0x3_6050 MDEU EU-Go register W 0x0000_0000_0000_0000 14.5.4.10/14-61 */ 0x3_6100--0x3_6120 MDEU context memory registers R/W 0x0000_0000_0000_0000 14.5.4.11/14-61 0x3_6400--0x3_647F MDEU key memory W 0x0000_0000_0000_0000 14.5.4.12/14-62 0x3_6800--0x3_6FFF MDEU FIFO W 0x0000_0000_0000_0000 14.5.4.13/14-63 /* ARC Four Execution Unit (AFEU) */ volatile uint32_t afeumr; /* 0x3_8000 AFEU mode register R/W 0x0000_0000_0000_0000 14.5.3.1/14-43 */ volatile uint32_t afeuksr; /* 0x3_8008 AFEU key size register R/W 0x0000_0000_0000_0000 14.5.3.3/14-44 */ volatile uint32_t afeudsr; /* 0x3_8010 AFEU data size register R/W 0x0000_0000_0000_0000 14.5.3.4/14-45 */ volatile uint32_t afeurcr; /* 0x3_8018 AFEU reset control register R/W 0x0000_0000_0000_0000 14.5.3.5/14-46 */ volatile uint32_t afeusr; /* 0x3_8028 AFEU status register R 0x0000_0000_0000_0000 14.5.3.6/14-46 */ volatile uint32_t afeuisr; /* 0x3_8030 AFEU interrupt status register R 0x0000_0000_0000_0000 14.5.3.7/14-47 */ volatile uint32_t afeuicr; /* 0x3_8038 AFEU interrupt control register R/W 0x0000_0000_0000_1000 14.5.3.8/14-49 */ volatile uint32_t afeuemr; /* 0x3_8050 AFEU end of message register W 0x0000_0000_0000_0000 14.5.3.9/14-50 */ 0x3_8100--0x3_81FF AFEU context memory registers R/W 0x0000_0000_0000_0000 14.5.3.10.1/14-50 0x3_8200 AFEU context memory pointers R/W 0x0000_0000_0000_0000 14.5.3.10.2/14-51 volatile uint32_t afeuk0; /* 0x3_8400 AFEU key register 0 W $ 14.5.3.11/14-51 */ volatile uint32_t afeuk1; /* 0x3_848 AFEU key register 1 W $ 14.5.3.11/14-51 */ 0x3_8800--0x3_8FFF AFEU FIFO R/W 0x0000_0000_0000_0000 14.5.3.11.1/14-51 /* Random Number Generator (RNG) */ volatile uint32_t rngmr; /* 0x3_A000 RNG mode register R/W 0x0000_0000_0000_0000 14.5.5.1/14-63 */ volatile uint32_t rngdsr; /* 0x3_A010 RNG data size register R/W 0x0000_0000_0000_0000 14.5.5.2/14-64 */ volatile uint32_t rngrcr; /* 0x3_A018 RNG reset control register R/W 0x0000_0000_0000_0000 14.5.5.3/14-65 */ volatile uint32_t rngsr; /* 0x3_A028 RNG status register R 0x0000_0000_0000_0000 14.5.5.4/14-65 */ volatile uint32_t rngisr; /* 0x3_A030 RNG interrupt status register R 0x0000_0000 */ _0000_0000 14.5.5.5/14-66 volatile uint32_t rngicr; /* 0x3_A038 RNG interrupt control register R/W 0x0000_0000 */ _0000_1000 14.5.5.6/14-67 volatile uint32_t rngeug; /* 0x3_A050 RNG EU-Go register W 0x0000_0000 */ _0000_0000 14.5.5.7/14-68 0x3_A800--0x3_AFFF RNG FIFO R 0x0000_0000 _0000_0000 14.5.5.8/14-68 /* Public Key Execution Unit (PKEU) */ volatile uint32_t pkeumr; /* 0x3_C000 PKEU mode register R/W 0x0000_0000_0000_0000 14.5.1.1/14-26 */ volatile uint32_t pkeuksr; /* 0x3_C008 PKEU key size register R/W 0x0000_0000_0000_0000 14.5.1.2/14-28 */ volatile uint32_t pkeudsr; /* 0x3_C010 PKEU data size register R/W 0x0000_0000_0000_0000 14.5.1.3/14-28 */ volatile uint32_t pkeurcr; /* 0x3_C018 PKEU reset control register R/W 0x0000_0000_0000_0000 14.5.1.5/14-29 */ volatile uint32_t pkeusr; /* 0x3_C028 PKEU status register R 0x0000_0000_0000_0000 14.5.1.6/14-30 */ volatile uint32_t pkeuisr; /* 0x3_C030 PKEU interrupt status register R 0x0000_0000_0000_0000 14.5.1.7/14-31 */ volatile uint32_t pkeuicr; /* 0x3_C038 PKEU interrupt control register R/W 0x0000_0000_0000_1000 14.5.1.8/14-32 */ volatile uint32_t pkeuabs; /* 0x3_C040 PKEU AB size register R/W 0x0000_0000_0000_0000 14.5.1.3/14-28 */ volatile uint32_t pkeueug; /* 0x3_C050 PKEU EU-Go W 0x0000_0000_0000_0000 14.5.1.9/14-33 */ 0x3_C200--0x3_C23F PKEU parameter memory A0 R/W 0x0000_0000_0000_0000 14.5.1.10/14-34 0x3_C240--0x3_C27F PKEU parameter memory A1 R/W 0x0000_0000_0000_0000 0x3_C280--0x3_C2BF PKEU parameter memory A2 R/W 0x0000_0000_0000_0000 0x3_C2C0--0x3_C2FF PKEU parameter memory A3 R/W 0x0000_0000_0000_0000 0x3_C300--0x3_C33F PKEU parameter memory B0 R/W 0x0000_0000_0000_0000 0x3_C340--0x3_C37F PKEU parameter memory B1 R/W 0x0000_0000_0000_0000 0x3_C380--0x3_C3BF PKEU parameter memory B2 R/W 0x0000_0000_0000_0000 0x3_C3C0--0x3_C3FF PKEU parameter memory B3 R/W 0x0000_0000_0000_0000 0x3_C400--0x3_C4FF PKEU parameter memory E W 0x0000_0000_0000_0000 0x3_C800--0x3_C8FF PKEU parameter memory N R/W 0x0000_0000_0000_0000 #endif typedef struct m83xxRegisters_ { m83xxSysConRegisters_t syscon; m83xxWDTRegisters_t wdt; uint8_t reserved0_0210[0x0300-0x0210]; m83xxRTCRegisters_t rtc; uint8_t reserved0_0320[0x0400-0x0320]; m83xxPITRegisters_t pit; m83xxGTMRegisters_t gtm[M83xxGTModCnt]; m83xxIPICRegisters_t ipic; m83xxARBRegisters_t arb; m83xxRESRegisters_t res; m83xxCLKRegisters_t clk; m83xxPMCRegisters_t pmc; m83xxGPIORegisters_t gpio[2]; uint8_t reserved0_0E00[0x1000-0x0E00]; m83xxDLLRegisters_t dll; uint8_t reserved0_1200[0x2000-0x1200]; m83xxDDRRegisters_t ddr; uint8_t reserved0_2F00[0x3000-0x2F00]; m83xxI2CRegisters_t i2c[2]; uint8_t reserved0_3200[0x4000-0x3200]; uint8_t reserved0_4000[0x4500-0x4000]; m83xxDUARTRegisters_t duart[2]; uint8_t reserved0_4700[0x5000-0x4700]; m83xxLBCRegisters_t lbc; uint8_t reserved0_5100[0x7000-0x5100]; m83xxSPIRegisters_t spi; uint8_t reserved0_7100[0x8000-0x7100]; m83xxDMARegisters_t dma; m83xxPCICfgRegisters_t pcicfg[2]; m83xxPCIIosRegisters_t pciios; m83xxPCICtrlRegisters_t pcictrl[2]; uint8_t reserved0_8700[0x22000-0x8700]; m83xxUSB_MPHRegisters_t usb_mph; m83xxUSB_DRRegisters_t usb_dr; m83xxTSEC_Registers_t tsec[M83xx_TSEC_NIFACES]; } m83xxRegisters_t; extern m83xxRegisters_t mpc83xx; #endif /* !defined ASM */ /* * some definitions used in assembler startup */ /* * default address of IMMRBAR */ #define IMMRBAR_DEFAULT 0xFF400000 /* * offsets of some registers */ #define LBLAWBAR0_OFF 0x00020 #define LBLAWAR0_OFF 0x00024 #define LBLAWBAR1_OFF 0x00028 #define LBLAWAR1_OFF 0x0002C #define LBLAWBAR2_OFF 0x00030 #define LBLAWAR2_OFF 0x00034 #define LBLAWBAR3_OFF 0x00038 #define LBLAWAR3_OFF 0x0003C #define PCILAWBAR0_OFF 0x00060 #define PCILAWAR0_OFF 0x00064 #define PCILAWBAR1_OFF 0x00068 #define PCILAWAR1_OFF 0x0006C #define DDRLAWBAR0_OFF 0x000A0 #define DDRLAWAR0_OFF 0x000A4 #define DDRLAWBAR1_OFF 0x000A8 #define DDRLAWAR1_OFF 0x000AC #define BR0_OFF 0x05000 #define OR0_OFF 0x05004 #define BR1_OFF 0x05008 #define OR1_OFF 0x0500C #define BR2_OFF 0x05010 #define OR2_OFF 0x05014 #define BR3_OFF 0x05018 #define OR3_OFF 0x0501C #define BR4_OFF 0x05020 #define OR4_OFF 0x05024 #define BR5_OFF 0x05028 #define OR5_OFF 0x0502C #define BR6_OFF 0x05030 #define OR6_OFF 0x05034 #define BR7_OFF 0x05038 #define OR7_OFF 0x0503C #define MRPTR_OFF 0x05084 #define LSDMR_OFF 0x05094 #define LSRT_OFF 0x050A4 #define LCRR_OFF 0x050d4 #define CS0_BNDS_OFF 0x02000 #define CS1_BNDS_OFF 0x02008 #define CS2_BNDS_OFF 0x02010 #define CS3_BNDS_OFF 0x02018 #define CS0_CONFIG_OFF 0x02080 #define CS1_CONFIG_OFF 0x02084 #define CS2_CONFIG_OFF 0x02088 #define CS3_CONFIG_OFF 0x0208C #define TIMING_CFG_3_OFF 0x02100 #define TIMING_CFG_0_OFF 0x02104 #define TIMING_CFG_1_OFF 0x02108 #define TIMING_CFG_2_OFF 0x0210C #define DDR_SDRAM_CFG_OFF 0x02110 #define DDR_SDRAM_CFG_2_OFF 0x02114 #define DDR_SDRAM_MODE_OFF 0x02118 #define DDR_SDRAM_MODE_2_OFF 0x0211C #define DDR_SDRAM_MD_CNTL_OFF 0x02120 #define DDR_SDRAM_INTERVAL_OFF 0x02124 #define DDR_SDRAM_DATA_INIT_OFF 0x02128 #define DDRCDR_OFF 0x0012C #define DDR_SDRAM_CLK_CNTL_OFF 0x02130 #define DDR_SDRAM_INIT_ADDR_OFF 0x02148 #define DDR_ERR_DISABLE_OFF 0x02E44 /* * some bits in DDR_SDRAM_CFG register */ #define DDR_SDRAM_CFG_MEM_EN (1 << (31- 0)) /* enable memory */ /* * bits in DDR_SDRAM_CFG_2 register */ #define DDR_SDRAM_CFG_2_D_FRC_SR (1 << (31- 0)) /* force self refresh */ #define DDR_SDRAM_CFG_2_D_SR_IE (1 << (31- 1)) /* self refresh interrupt en */ #define DDR_SDRAM_CFG_2_D_DLL_RST_DIS (1 << (31- 2)) /* DLL reset disable */ #define DDR_SDRAM_CFG_2_D_DQS_CFG_DIF (1 << (31- 5)) /* use diff. DQS */ #define DDR_SDRAM_CFG_2_D_INIT (1 << (31-27)) /* Init DRAM with pattern */ /* * bits in reset configuration words/registers */ /* Local bus clocking mode */ #define RCWLR_LBIUCM_1_1 (0 << (31- 0)) /* 1:1 */ #define RCWLR_LBIUCM_2_1 (1 << (31- 0)) /* 2:1 */ /* DDR clocking mode */ #define RCWLR_DDRCM_1_1 (0 << (31- 1)) /* 1:1 */ #define RCWLR_DDRCM_2_1 (1 << (31- 1)) /* 2:1 */ /* System PLL mult. factor */ #define RCWLR_SPMF(n) (((n)&0xf)<<(31- 7)) /* Core PLL mult. factor */ #define RCWLR_COREPLL(n) (((n)&0xff)<<(31-15)) /* PCI host mode */ #define RCWHR_PCI_AGENT (0 << (31- 0)) /* agent mode */ #define RCWHR_PCI_HOST (1 << (31- 0)) /* host mode */ #define RCWHR_PCI_32 (0 << (31- 1)) /* PCI bus width 32 bit */ #define RCWHR_PCI_64 (1 << (31- 1)) /* PCI bus width 64 bit */ #define RCWHR_PCI1ARB_DIS (0 << (31- 2)) /* PCI1 arbiter disabled */ #define RCWHR_PCI1ARB_EN (1 << (31- 2)) /* PCI1 arbiter enabled */ #define RCWHR_PCI2ARB_DIS (0 << (31- 3)) /* PCI2 arbiter disabled */ #define RCWHR_PCI2ARB_EN (1 << (31- 3)) /* PCI2 arbiter enabled */ #define RCWHR_CORE_DIS (1 << (31- 4)) /* CPU core disabled */ #define RCWHR_CORE_EN (0 << (31- 4)) /* CPU core enabled */ #define RCWHR_BMS_LOW (0 << (31- 5)) /* Boot from low addr 0x00000100 */ #define RCWHR_BMS_HIGH (1 << (31- 5)) /* Boot from high addr 0xFFF00100 */ #define RCWHR_BOOTSEQ_NONE (0 <<(31- 7)) /* Bootsequencer off */ #define RCWHR_BOOTSEQ_NORM (1 <<(31- 7)) /* Bootsequencer normal I2C */ #define RCWHR_BOOTSEQ_EXTD (2 <<(31- 7)) /* Bootsequencer extended I2C */ #define RCWHR_BOOTSEQ_RSRV (3 <<(31- 7)) /* Bootsequencer reserved */ #define RCWHR_SW_DIS (0 << (31- 8)) /* Watchdog disabled */ #define RCWHR_SW_EN (1 << (31- 8)) /* Watchdog enabled */ #define RCWHR_ROMLOC_DDR (0 << (31-11)) /* Initial ROM location:DDR Ram */ #define RCWHR_ROMLOC_PCI1 (1 << (31-11)) /* Initial ROM location:PCI 1 */ #define RCWHR_ROMLOC_PCI2 (2 << (31-11)) /* Initial ROM location:PCI 2 */ #define RCWHR_ROMLOC_RSV1 (3 << (31-11)) /* Initial ROM location:Reserved */ #define RCWHR_ROMLOC_RSV2 (4 << (31-11)) /* Initial ROM location:Reserved */ #define RCWHR_ROMLOC_LB08 (5 << (31-11)) /* Initial ROM location:LBus 8bit*/ #define RCWHR_ROMLOC_LB16 (6 << (31-11)) /* Initial ROM location:LBus 16bit*/ #define RCWHR_ROMLOC_LB32 (7 << (31-11)) /* Initial ROM location:LBus 32bit*/ #define RCWHR_TSEC1M_RGMII (0 << (31-17)) /* TSEC1 Mode: RGMII */ #define RCWHR_TSEC1M_RTBI (1 << (31-17)) /* TSEC1 Mode: RTBI */ #define RCWHR_TSEC1M_GMII (2 << (31-17)) /* TSEC1 Mode: GMII */ #define RCWHR_TSEC1M_TBI (3 << (31-17)) /* TSEC1 Mode: TBI */ #define RCWHR_TSEC2M_RGMII (0 << (31-19)) /* TSEC2 Mode: RGMII */ #define RCWHR_TSEC2M_RTBI (1 << (31-19)) /* TSEC2 Mode: RTBI */ #define RCWHR_TSEC2M_GMII (2 << (31-19)) /* TSEC2 Mode: GMII */ #define RCWHR_TSEC2M_TBI (3 << (31-19)) /* TSEC2 Mode: TBI */ #define RCWHR_ENDIAN_BIG (0 << (31-28)) /* Big Endian Mode */ #define RCWHR_ENDIAN_LIT (1 << (31-28)) /* True Little Endian Mode */ #define RCWHR_LALE_NORM (0 << (31-29)) /* normal LALE timing */ #define RCWHR_LALE_EARLY (1 << (31-29)) /* early LALE negation */ #define RCWHR_LDP_PAR (0 << (31-30)) /* LDP0-3 are parity pins */ #define RCWHR_LDP_SPC (1 << (31-30)) /* LDP0-3 are special pins */ #if !defined(ASM) typedef struct PQ_BufferDescriptor_ { volatile uint16_t status; volatile uint16_t length; volatile void *buffer; } PQBufferDescriptor_t; #endif /* * Bits in receive buffer descriptor status word */ #define M83xx_BD_EMPTY (1<<15) #define M83xx_BD_RO1 (1<<14) #define M83xx_BD_WRAP (1<<13) #define M83xx_BD_INTERRUPT (1<<12) #define M83xx_BD_LAST (1<<11) #define M83xx_BD_CONTROL_CHAR (1<<11) #define M83xx_BD_FIRST_IN_FRAME (1<<10) #define M83xx_BD_MISS (1<<8) #define M83xx_BD_BROADCAST (1<<7) #define M83xx_BD_MULTICAST (1<<6) #define M83xx_BD_LONG (1<<5) #define M83xx_BD_NONALIGNED (1<<4) #define M83xx_BD_SHORT (1<<3) #define M83xx_BD_CRC_ERROR (1<<2) #define M83xx_BD_OVERRUN (1<<1) #define M83xx_BD_COLLISION (1<<0) /* * Bits in transmit buffer descriptor status word * Many bits have the same meaning as those in receiver buffer descriptors. */ #define M83xx_BD_READY (1<<15) #define M83xx_BD_PAD_CRC (1<<14) /* WRAP/Interrupt as in Rx BDs */ #define M83xx_BD_TX_CRC (1<<10) #define M83xx_BD_DEFER (1<<9) #define M83xx_BD_TO1 (1<<8) #define M83xx_BD_HFE_ (1<<7) #define M83xx_BD_LATE_COLLISION (1<<7) #define M83xx_BD_RETRY_LIMIT (1<<6) #define M83xx_BD_RETRY_COUNT(x) (((x)&0x3C)>>2) #define M83xx_BD_UNDERRUN (1<<1) #define M83xx_BD_TXTRUNC (1<<0) #endif /* _MPC83XX_MPC83XX_H */